Variable Star XX Andromeda - Free Essay Example

Sample details Pages: 29 Words: 8706 Downloads: 7 Date added: 2017/06/26 Category Statistics Essay Did you like this example? A Study on the Variable Star XX Andromeda Abstract We present the results of a month long V-Band study on the RRab type variable star XX Andromeda. 4526 data points are used to plot a light curve, with 3 maxima observed and added to data from the GEOS database to create an O-C diagram. Three methods of estimating the pulsation period are used, including two Phase Dispersion Minimisation methods and an O-C method, resulting in a best estimate of the period of days. Don’t waste time! Our writers will create an original "Variable Star XX Andromeda" essay for you Create order This value is in excellent agreement with the literature values for the period of XX And, from both the Hipparcos catalogue and the GCVS. The distance to XX And is estimated to be pc using a main sequence fitting method to estimate the absolute magnitude, and the mean radius is estimated to be . A flatfielding improvement to the photom.py pipeline is suggested to combat dust artefacts on the CCD. Physical reasons are discussed for the distinctive features present in the light curve, namely the Hump and the Bump. I. Introduction In 1893 Solon I Bailey started a program of globular cluster study[i]. He noticed that some clusters (e.g Centuri) were extremely rich in variable stars with similar properties they had periods of less than a day, and light curve amplitudes of around 1 mag. The mean value of apparent magnitude of these stars in a particular cluster was also approximately the same across the sky. Bailey named these Cluster Type Variables. However an increasing number of stars with these properties were being found outside of clusters indeed the brightest star of this type ever found was a field variable, RR Lyrae (after which the class is now named). Discoveries then began to come thick and fast, and it is currently estimated that over 85000 exist in the Milky Way alonei. RR Lyrae variables have also been observed in the Andromeda Galaxy, the Large Magellanic Cloud and other Local Group dwarf galaxies[ii]. Measuring the properties of these variables has become increasingly important to astronomers, as it was realised that they could be used to gauge astronomical distances through a period-luminosity (P-L) relation, in a similar way to Cepheids. Various catalogues have studied their properties, for example the General Catalogue of Variable Stars[iii] or the more recent Hipparchos Catalogue[iv]. Until recently however, no distinct P-L relation had been found, and instead astronomers had to use a relation between metallicity and visual magnitude or the Baade-Wesselink method, the drawbacks of which are discussed later. Currently there is still no P-L relation for V-band observations, although there are now relations for most of the infrared spectral bands[v]. RR Lyrae variables are also of importance for the study of the population of both the Galactic Bulge (via Baades Window for example) and the Galactic Halo. Their advanced age and low metallicity combined with distinctive pulsation properties provides an excellent tracer for the development of the Milky Way in its early stages, as well as current kinematic analysis[vi]. They have also been used as a means of quantifying the interstellar reddening caused by dust in the galactic plane, thanks to the fact that the colour excess is a function of minimum (V-I) colour only[vii]. Using this reddening data with other distance indicators (for example red clump stars in the bulge[viii]), a meaningful approximation of the distance to the centre of the bulge can be obtained. Clearly then the study of RR Lyrae variables is useful for the understanding of the evolution of both the Milky Way and the rest of the Local Group. The star to be observed in this study is XX Andromeda (abbr. XX And), an F2 spectral class RRab type variable, located in the constellation of Andromeda at RA: 1h 17m 27.4145s, Dec: +3857 02.026 (see 1). Its moderately high position in the sky at Durham means that it is circumpolar, whilst not exceeding the +65 limit for the telescope fork mount, resulting in minimal atmospheric interference and the maximum possible observing time. The GCVS lists a period of. It is also known to exhibit the Blazhko effect, a long-period modulation of the amplitude of an RR Lyrae star (the cause of which is currently under investigation), with a period ofiii, and has an [Fe/H] value of -1.94. II. Theory Observational Theory CCD Theory Perhaps the most important advance in astronomy in the last 20 years has been the widespread use of Charge-Coupled Devices (CCDs) to replace photographic plates. Invented in 1969 at Bell Labs by Boyle and Smith, CCDs are a thin piece of semiconductor material (e.g. silicon) upon which lies an grid-like array of metal-oxide semiconductor (MOS) capacitors[x]. During an exposure, if a photon impacts on the silicon an electron/hole pair can be produced, as an electron is pushed up into a higher energy state. The MOS capacitors act as deep potential wells (pixels), which hold the electrons until the exposure is finished. The charge is then read-out to an amplifier at one edge, in a specific order so that that the position of the original pixel can be identified, and related to the magnitude of the detected charge. The charge is converted from a raw number of electrons into ADUs (analogue to digital units), the conversion factor of which is the gain of the CCD[xi]. They are preferred to photographic plates in modern astronomical photometry for several reasons: * High quantum efficiency (QE) for each incident photon there is upwards of 90% certainty[1] that an pair will be produced. On the other hand, with photographic plates one can achieve (at best) an efficiency of 3%[xii], so using CCDs will increase the likelihood of detection of distant objects. * Large dynamic range, allowing them to detect objects with a range of magnitudes in the sky in the same exposure. * Strong linearity up to the saturation point, so that for longer exposure times the number of electrons produced is proportional to the integration time, whereas photographic plates will experience a drop in their efficiency. Their linearity will also mean that the magnitude of charge in each pixel is linearly proportional to the luminosity of the object. CCDs have also brought some inherent problems however, for example the noise associated with each image. Because photons obey Gaussian statistics for large counts, there will be a shot noise (uncertainty in the count rate) for each pixel of whereis the number of photons detected. Error in an image also stems from both the bias of the CCD, and the dark current present. The bias of a CCD is a systematic voltage offset across the whole CCD to prevent digital underflow during analogue to digital (A-D) conversion. It includes the read-out noise, a result of the manipulation of the pixel charge values during the A-D process and any charge-loss which occurs during the transfer[xiii]. A CCDs dark current is an unwanted flow of electrons which have been released from the surface of the semiconductor by thermal excitation, and is purely dependant on the surface temperature, rather than being a function of illumination. For this reason the CCD was cooled by both the Peltier method (electrically ) and with an active assisting fan[xiv], to around 35C below ambient temperature, as the thermal current is approximately halved for each 7C reduction in CCD temperaturexii. To remove noise from an image, a set of calibration images may be taken alongside each raw exposure. These are called bias and dark frames. The bias frame is a zero-time exposure which will include both bias and read-out noise. A dark frame can be found by leaving the shutter on the camera closed and taking an exposure seconds long. It can be expressed as , [xv](2) whereis the dark current, andis the thermal noises statistical variation. Ideally one would be taken before each exposure, as temperature routinely varies slightly with time. A master dark frame can be found by taking the average of a large number of dark frames, and will include the equivalent of a master bias. This master dark can then be subtracted from each image to leave a final, processed image with as low a random error as possible. The Automated Photometry Process Since the experiment involved a large number of images, the photometry processes were automated using several Python scripts and FORTRAN routines. The script all.py was used to iterate the photom.py script over a range of images within a directory and print a string detailing which file was currently being processed. photom.py was the main script run, and was used to call several other processes which ran the photometry calculations, among other things. Firstly, it read in the file specified, and split the filename into the file and the extension, by using the find function to search for the full stop as the delimiter. i=file_name.find(.) Using the extension to determine the file type, the script then either subtracted the master_dark.sdf frame (if it was a FITS file, and hence a DRACO output file) or converted it to a FITS file (if it was an ST9 file, and hence 14-inch, which had already had the dark frame removed). The conversion is achieved using two separate routines: sbig2ndf, a routine from the SBIG python module which converts compressed output ST9 files created in CCDOPS into NDF files, and ndf2fits, which is a routine from the convert set of variables that converts the NDF files to FITS images. The subtraction of the dark frame is made using the kappa package from Starlink. photom.py then reads the variable star position from a user-created var_sky_position file. Using this, the script runs find_astrom.py. This attempts to match the stars in the image to the USNOA2 catalogue, and produce a new FITS file with the derived header solution. Firstly it takes the given star position as the centre of the image, and runs sextractor to find all the objects in the image. Next, it runs the WCS Tools routine scat at that RA and Dec to attempt to find any known objects in the region from the catalogue and prints it to a new file, usnoa_ref.cat: commands.getoutput(scat+ -d -c ua2 -n 200 -m 17 r 600 +ra+ +dec+ j2000 usnoa_ref.cat) The pixel scale is taken from the directorys automag_driver file, and used by Andrew Pickles starfit script to match each object found by sextractor to the catalogues objects. This is achieved by the matching of triangles created between sets of objects in the sky to similar triangles created from the catalogues objects. Starlinks astrom routine is then used to correct the solution: out=commands.getoutput(/star/bin/astrom fits=asc) print astrom returns:, out Finally, find_astrom.py edits the header keys using pyfits to reflect the newly derived solution, and creates a new FITS image with the file ending _ast.fits. photom.py then runs sextractor again, to product a new catalogue of the objects from the image, complete with their RA and Dec. The script then performs the aperture photometry using automag.py. This measures the relative aperture magnitudes for the objects defined in the new object catalogue, by taking the number of counts within the specified aperture radius from the driver, and applying the formula: (3) Here is a constant offset defined in the driver, is the number of counts within the aperture (which is pixels in size) minus the background, and is the integration time. Background errors are calculated by measuring the counts within the two sky aperture radii to find the mean and rms sky-counts over pixels,and, and firstly deriving the signal to noise ratio for the star, by applying Equation (4) below[xvi]. (4) In the above equation, is the gain of the CCD. By using the flux based definition of the magnitude difference and manipulating the logarithm equation, the signal to noise value can be used to find the error on a measured magnitude, as shown in Equation (5). (5) These instrumental magnitudes are appended to the catalogue file, next to each object. auto_mag2list.py is subsequently run to pull the calibration stars from the catalogue, by matching the RA and Dec to those in the cal_sky_positions. The variable stars data, as well as the calibration stars data and the observation time in Modified Julian Days (MJD) are then appended to a file called summary.obs. Once photom.py completes, the raw2dif routine can then be run to perform the differential magnitude calculation. This routine takes each line from the summary.obs file and subtracts the average of the two comparison stars instrumental magnitudes from the variable stars instrumental magnitude, . A zero-point constant is then added to put the differential magnitude on the standard scale. This can be measured by taking images of photometric standard stars (from the Tycho catalogue for example), and comparing their instrumental magnitudes to their known apparent magnitudes, as described in the next section. (6) raw2dif outputs simply the observation time, variable stars standardised magnitude, and the error on the magnitude to a user-defined file. Magnitude Zero-point Measurement The zero-point is found by measuring the magnitudes of photometric stars with the telescopes, and comparing these to the values found for the stars in the Tycho catalogue. This catalogue uses a separate magnitude system, which can be converted into standard V-band magnitudes using the following formula: (7) The difference in these catalogue magnitudes and the observed values can then be used to show the difference that the specific equipment has made. This is the zero-point magnitude. Period Determination Two programs are used for the period determination, the routine bforce and PDM win 3.0[xvii]. bforce uses a brute force method to find the period of the variability. It attempts to fit the data onto a user generated model of the light curve (with a phase resolution of 0.1), and wrap (or fold) it around a suggested period. The routine then splits the data into a series of bins and estimates the variance in each, as follows; , (8) for observations in each bin. If the trial period is incorrect, there will be a large scatter of magnitudes in each bin, i.e. a large variance. This is compared to the variance of the data set as a whole using an F-test, which is achieved by finding the ratioof bin variance (the explained variance) to total variance (the unexplained variance). For an incorrect estimate of the period 1, whereas for the correct period 1. The routine will use a new trial period and re-compute the variances, repeating this until a minimumvalue is obtained. The PDM program works in a similar, if more refined way, implementing some of the recent changes in the accepted way of calculating a phase dispersion minimisation period. While still using a variation-based method, it finds the period using a beta-distribution method (designated PDM*) rather than an F-test, as this has been shown to be the correct probability distribution to use[xviii]. It also utilises a GUI with a series of user-set options, for example variable phase resolution. RR Lyrae Theory Subclasses of RR Lyrae Variables From his observations, Bailey noticed three separate subclasses of variable, which have subsequently been compacted into two subclasses (as subclasses a b were very similar). The following is paraphrased from Baileys original description[xix]: * Subclass ab: Very rapid increase of magnitude, with a moderately rapid decrease in mag. Nearly constant mag for approx one half of the full period. Amplitude of roughly one mag and a period of between 12 and 20 hours. * Subclass c: Magnitude always changing, with moderate rapidity. Range generally half a magnitude, with a period of 8 to 10 hours. As our study concerns an RRab type variable, this class shall be primarily discussed. Typical characteristics of RRab stars RR Lyrae stars are large red stars with a low mass, occupying the area of the instability strip on the H-R Diagram (see Fig. 1) between -Scuti and Cepheid variables, where it intersects the horizontal branch. They are in the core helium burning stage of their evolution, having exhausted their core hydrogen fuel. Mean physical properties of these variables are under some contention, but a summary of current approximations is provided in Table 1. Period 0.2 1.1 days Mv 0.78 0.02 Te 6404 12 K [Fe/H] -1.56 0.25 Mass 0.55 0.01 M Radius 5 1 R Table 1. Typical properties of RRab variables. All values are mean values of 335 variable stars[xxi], except period which is a typical rangei. Evolutionary theory It is thought that the progenitor of an RR Lyrae star was a typical low-mass main sequence star, with M* 0.8M. For the first 15 Gyr of its life, the star burns core hydrogen, fusing it into helium. Once the hydrogen supply in the core is exhausted, the star expands to become a red giant, moving off the main sequence and up the giant branch of the Hertzprung-Russell diagram (see Fig. 1), and shell-burning of hydrogen now occurs around an inert helium core. The helium core eventually collapses, becoming electron degenerate, and increases in temperature until the helium in the core ignites using the triple - process, causing the helium flash. The cores degeneracy is lost and the star moves off the giant branch asymptotically, down towards the instability strip. At this point it can develop the pulsational properties of an RR Lyrae star, although this will be dependent on its mass, its chemical composition, and its temperaturei. Once the helium core is also used up after around 0.1 Gyr, the star begins to expand and cool again, fuelled only by shell burning of hydrogen and helium. The core never becomes hot enough for the fusion of heavier elements. Eventually all the usable fuel is expended and the star will jettison off its outer layers of material to leave a white dwarf star, shining only through the radiation of internal thermal energy. Pulsation theory The study of pulsation theory owes much to Arthur Eddington, who wrote a series of papers detailing a mathematical description of the properties of stars. Having realised that a radial pulsation in a static star would have a decay time of around 8000 years (much shorter than the length of time stars spend in the instability strip), he proposed that stars behaved as thermodynamic heat engines, using some valve mechanism to regulate energy flow[xxii]. In order to fulfil pulsation, this valve would need to make the star more thermally opaque as the star was compressed, and less opaque as it expanded. Effectively this would cause energy to build up when the star was compressed, forcing the star to swell in size until some turning point was reached and the opacity was small enough that energy could escape, leading to the star contracting again. The Rosseland mean opacity shows the overall opacity of a stellar region, and is defined as follows, (9) where is a constant, is the density of the region, and is temperature. Eddington was unable to come up with a particular material that would possess these properties in a star, particularly as during his time it was not believed that hydrogen or helium made up significant proportions of the inside of stars. It is also the case that neutral hydrogen or helium regions cannot be the valve region, as for these regions and i.e. as increases will decrease. This would lead to the pulsation dying out extremely quickly as all the radiative pressure was lost during contraction. However in 1953 Sergei Zhevakin found that regions of doubly ionised helium would provide an area wherebecomes small or negative, resulting in the desired properties for the gas. It was later shown by R. F. Christy[xxiii] that hydrogen ionisation can play a smaller, but still important, role in the mechanism. Ionisation zones can make another possible contribution to the valve in a star. If the energy from fusion processes cause ionisation in gas regions instead of raising their temperature, then the gas will absorb heat during compression stages, causing a pressure maximum near the minimum volume and thus aiding pulsation. This is known as the mechanism. Different classes of RR Lyrae variable pulsate with different modes. For instance RRab stars all vary in the fundamental mode, whilst RRc stars are pulsating in the first overtone. This is one of the reasons that types a and b can be separated from type c as a separate class. A third class of variables has also been observed, termed RRd type stars, which have a double-mode pulsation, pulsating in the fundamental and first overtone modes simultaneously. However, some RRab stars show a long-timescale second periodicity, known as the Blazhko effect. This is an overarching period that can be anywhere between 30 days and several years. The cause of this effect is unclear, but is believed to come from either a nonlinear resonance effect between the radial fundamental mode and some non-radial mode, or a cyclical rotating magnetic field that deforms the main radial mode of pulsation[xxiv]. Estimation of Absolute Magnitude and Distance RR Lyrae stars are useful for the determination of astronomical distances, especially to regions such as clusters in the Halo, and the Bulge. However, unlike for Cepheids, accurate parallax measurements of distance do not exist for RR Lyrae variables (with the exception of a very few the star RR Lyrae itself for example[xxv]), as the majority of stars are simply too far away for resolution currently[2]. Instead, astronomers look to alternative measurement tools, for example main sequence fitting or the Baade-Wesselink method. Main sequence fitting is the process of determining the distance to a cluster by fitting its colour-magnitude diagram to that of nearby main sequence stars which have a parallax-determined distance. This has produced a wide variety of relations over the last twenty years, but a general relation (that is within error of the majority of current estimates) is given by H. Smithi: (10) The currently favoured method of finding the metallicity is to use the relation, described by Jurcsik Kovcs in their seminal paper Determination of [Fe/H] from the light curves of RR Lyrae stars[xxvi]. This used a sixth order Fourier decomposition of the light curve to find multiple properties of an RR Lyrae star. When they plotted the data they found the following linear relation: (11) This allows the metallicity to be determined accurately, and then used in the main sequence fitting method to find an accurate absolute magnitude for a star. Finding the absolute magnitudeis important, because it allows for the use of the magnitude equation to determine distance to an object, taking into account the galactic extinction in the direction of the object due to dust and gas in the galactic plane, : (12) The Baade-Wesselink method, originally applied to Cepheid variables, was based on the assumption that a star will have the same surface temperature and brightness at all points of equal colour on the ascending and descending sides of the light curve. This implies that any luminosity variation between two half-phases can be said to be the result of radial differences in the star. Thus a fractional radius change can be measured as. If a radial velocity curve is also plotted for the star, the radius change over the period can be directly measured, and through the combination of these two results a value for the luminosity of the star can be found. This can be used to show the distance to an RR Lyrae star through the relation (13) whereis Stefans Constant, andis the stars effective temperature. However RR Lyrae variables do not behave exactly like Cepheids; for example during stellar expansion the surface gravity is much greater than when the star is contracting, leading to flux redistribution across the surface. This, combined with shock waves permeating through the stellar atmosphere causing distorted radial velocity curves, means that V band photometry is unfortunately useless for applying the Baade-Wesselink method to RR Lyrae stars. The procedure must instead be carried out in (V-H) or (V-K) colours for example, as infra-red wavelengths are less sensitive to the expansion phase distortions[xxvii]. Estimation of Radius Marconi et alxxv have published an equation relating the period of a fundamental mode RR Lyrae star to its average radius; (14) whereis the mean radius (in units of solar radii), is the period (in days), and is the heavier-than-iron metallicity of the star, defined as; xxi, (15) whereis the alpha-enhancement with respect to iron, and is taken to be equal to 1. This is derived from their theoretical predictions of the radial oscillations of a metal poor RR Lyrae, and applies to stars with helium abundances of between (0.24 and 0.28). III. Experimental Methods Preparing the experiment Inital sessions were spent becoming aquainted with the computers Linux-based operating systems, understanding the basics of photometry and exploring the provided software. Several rooftop sessions were attended to gain knowledge of the telescopes provided, and to learn safety procedures associated with the use of the equipment. Due to initial poor weather, previous years data was analysed in order to improve understanding of the provided scripts. A list of RRab targets from the NSVS catalogue[xxviii] was examined to find a suitable object, with a magnitude range visible on the telsecopes available, a period of less than a day, and a high position in the sky. Table 2. Properties of the Telescope and CCD combinations for each dome. Both telescopes were fitted with the same model of V-band filter. Background information on the chosen star (XX And) was found using the SIMBAD database[xxix], and examined to find previous studies, including estimates of period, metallicity, and star type, as well as dates of previously observed maxima. A plot of the field around the star was taken, and used to identify two calibration stars for the photometry ( 3): The calibration stars used were USNOA2.0 numbers 1275-00765817 (cal-star 1) and 1275-00761527 (cal-star 2). They were searched for in various catalogues to verify that they were not known to be variable. The best exposure time for our field was estimated to be 30 seconds with the 14-inch telescope, and 60 seconds with DRACO, so as not to saturate the image. By taking some sample images and viewing them in GAIA, suitable sizes for the apertures were chosen for each telescope. The sizes of the apertures were chosen to enclose the whole star, whilst giving the minimum error. These were then converted from scaled values to numbers of pixels, and entered into seperate automag_driver files for each telescope, along with the specific pixel scale, gain and read-out noise. Telescope Star Sky Inner Sky Outer 14-inch 4.7 14.9 21.4 DRACO 7 25.7 35.1 Table 3. The aperture radii (in pixels) used for each telescope. Firstly, the convert variables were set up. XX Ands RA and Dec in decimal degrees were inserted into a file called var_sky_position, and photom.py was run on the first frame (called for example filename.fits). This produced an output file called amag.out which contained the positions of all the recognised stars in the image, as well as a calibrated image dfilename_ast.fits. By comparing the (x,y) pixel locations in GAIA for the two calibration stars with the data in amag.out the RA and Dec of the calibration stars were noted, and inserted into a text file named cal_sky_positions. Observation of the Variable Observations of the field containing XX And were then taken over a period of 1 month, using both the 14-inch Far East and the 10-inch DRACO telescopes. For the 14-inch, the observing process was as follows: The object was located using the Earth Centre Universe program, the telescope synched and set to track, and the CCD programmed to take around 30 images per sequence at 30 seconds each, with an 8 second dark frame before each new image. For DRACO, the object was found using the provided G.U.I., with care taken to place the variable star and both comparison stars away from dust grains on the CCD. The telescope was set to track, and programmed to take a large number of images with a 60 second exposure. For each new observing session a seperate file was created, containing all the images and the scripts required for automated photometry. For DRACO processing, a master dark file was also copied from the archive. The file all.py was then amended to iterate over all the images in the dir ectory, and set running. Once the photometry had completed, the raw2dif routine was run, and the results viewed by running qplot. The data were adjusted to Heliocentric Julian Days by running the cor2hjd routine, and the final tables were copied across to a main results directory to be added to the full table of data. bfplot was run on the full dataset using an estimate for the period, and the phase values from the output file fort.30 were killed out and yanked into the dataset file using EMACS. This table was viewed in TOPCAT, and a light curve created. Any clear and accountable anomalies were removed in TOPCAT. To gain a value for the absolute magnitude of XX And, rather than simply an instrumental magnitude, a series of observations were made of photometric stars which had known magnitudes. These are shown in table 4 below: Photometric Star RA Dec Apparent V-band Magnitude 1 1h 18m 20.581s 38 55 38.23 9.847 2 1h 14m 50.729s 38 29 55.80 9.961 3 1h 15m 12.229s 38 49 10.95 9.048 4 1h 16m 39.436s 39 09 38.64 9.735 Table 4: Properties of photometric stars used in the magnitude calibration of XX And. This gave a value for the correction which had to be made to all the observed values for each telescope. The corrections were then applied to the full dataset. An O-C diagram was constructed using the data from the Hipparcos mission, the GEOS RR Lyrae Survey, and also archive data from the GEOS database[xxxi]. The period used was the Hipparcos estimate. Since the newly observed data used HJD, and the archive data was in modified HJD, an addition of 0.5 HJD has to be made to the new data in order to be comparable. The newly observed data was then added to the diagram, and the input period was altered to give the flattest line possible, thus providing a new estimate of the period. The error on the period is given by the slope of the line[xxxii]. Any historical period changes were searched for in the line of the O-C plot. The fast_solve routine was run on all of the summary.obs files, and the comparison stars were checked to see whether or not they were varying. The output model file from fast_solve was edited to include estimates of bin values where there was no actual observational data, and then used in the routine bforce. This was run using the period quoted in the Hipparcos catalogue as the initial period to give an estimate of the new period and its error. The period was also estimated using PDMwin, using an output table from TOPCAT. Errors in the period-finding were estimated using the Jackknife method on both the PDM and bforce programs. This was achieved by recomputing the period, but leaving out one observation at a time from the dataset. The standard deviation of the results produced by this method will be the standard error on the period. Using the new estimates of the period, the dataset was folded using bfplot, and the corrected phase for each datapoint extracted from the output file fort.30. By reading the period-corrected data into TOPCAT a new light curve was plotted. Estimates of the absolute magnitude and average radius of XX And were then computed, as well as its approximate distance from Earth. IV. Results 4: Folded and doubled light curve to show period of XX And pulsation, plotted in TOPCAT, with erroneous data points removed. The colours represent the date on which the observations were taken. Notice the distinct bump at phase 0.1 0.3, and also the hump along the near vertical part of the curve, between phases 0.45 0.55. The curve is doubled to emphasize these features, the causes of which are discussed in Section V. The period of XX And was determined using three methods, the results of which are shown below: 1. The bforce routine: days 2. PDM Win 3.0: days 3. O-C flattening: days These errors represent a precision of the order of 1 second in the estimation of the period. 5: O-C plot for XX And using archive data from the GEOS RR Lyrae database. The plot was calculated using a temporal zero-point constant of 0.0554042 and a minimised to period of 0.72275 days. The newly added points are the ones with error bars. From this it can be seen that no significant period change has occured over the observing history of this star, as a period change would be reflected in a broken line type plot, clearly not present here. The results from the fast_solve routine showed that the comparison stars did not significantly vary in magnitude, i.e. were good candidates for comparison stars (s 6 7). s 6 and 7: Plots created by fast_solve to show the change in the differential magnitude between the two comparison stars, over the course of an observation taken on the 14-inch telescope ( 6) and on DRACO ( 7). It can be seen that the stars retain a near constant differential magnitude throughout both observations. These are shown as an example of the plots produced, and the full set are attached in the appendix. The maximum apparent magnitude of XX And was found to be 9.3814, and the mean apparent magnitude to beusing TOPCAT. From Equation (10), the estimated mean absolute magnitude of XX And was calculated to be 0.512, so using Equation (12) and the observed mean apparent magnitude we can estimate the distanceto XX And to be; pc, using an estimate from the NASA Extragalactic Database extinction calculator for the interstellar extinction in the direction of XX And due to the galactic plane of 0.147 mag[xxxiii]. From Equation (14) the size of XX Ands average radius can be estimated to be: V. Discussion Image Quality During the initial few weeks of the study, the observing conditions were not suitable for collecting data. However whilst this delayed the initial training process, a prolonged spell of good conditions meant that there was ample opportunity for observation of the target star with completely clear skies. The high declination of XX And meant that atmospheric extinction was as low as possible, and did not affect the images significantly. Some image degradation occurred due to dew building up on the lens of the telescope, but these were cropped from the data set. The pipeline script photom.py was able to weed out poor quality images, as they could not be matched to a known field from a catalogue by the starfit routine. The script would then return an error, append nothing to the summary.obs file, and move onto the next image. This helped to remove images with a high background, caused for example by stray clouds across them, as well as smeared images. Whilst the 14-inch telescope provided excellent data over the runs we carried out, DRACO had some slight complications. Dust grains have built up over time on its CCD or on the mirror, and these create small dark patches on a non-flatfielded image. Also, due to small errors in the gears of DRACOs tracking motor, images were noted to jump a few arcseconds at irregular intervals. The jump itself resulted in a smear of light across the image from the objects, and so those frames were unusable for photometry. Fortunately the volume of data taken with DRACO was such that this was of no great consequence. However, the tracking problems caused a slightly more serious problem as well. Whilst care was taken to view the field in such a way that the necessary stars were not located near dust grains on the CCD, the jumping of the tracking system occasionally moved Cal Star 1 into the region of a dust grain. This was initially not caught as an error, until examination of the following light curve ( 9) gave reason to investigate several data runs. 9: Light curve (not adjusted for standard magnitude) of XX And produced using TOPCAT, emphasising the variance in the data caused by the passage of one calibration star across a dust grain region. The blue, green and gray data points were the observations which gave grounds for concern. All three were observing runs from different dates. The reason for the error became apparent after viewing the output plots from fast_solve for the comparison stars ( 10); there was a sharp rise in the difference in magnitudes between the two comparison stars, and as they had been determined to be non-variable, it seemed likely to be caused by an experimental error. This was confirmed when the original images from the runs were examined, and the calibration star was noted to be passing into a darker, dust grain region ( 11). For future studies with DRACO, an automated flat-fielding process would be introduced to the DRACO observing script, as well as the photom.py script. Flat-fielding is a process whereby the differences in quantum efficiency of the pixels across the CCD are measured, and used to account for differences in the gain of the CCD, the goal being to produce a uniform output response to a uniform illumination. In this case it would help to account for the presence of a dust grain on the CCD. A flatfield image taken with the telescope would be combined with the master dark frame to produce a master thermal frame, which could then be subtracted from each raw image using a call to Starlinks Kappa package from within the pipeline. Notes on processing and period determination Since one of our calibration stars (Cal Star 2) had another (~14th magnitude) star very close to it on the image, small aperture sizes had to be set on the 14-inch telescope to ensure that this did not affect our background calculations. DRACO did not have this problem, as it has a smaller resolving power, so larger apertures could be used. During one set of image processing it was noted that Starlink was no longer matching any objects to the field in the image. After much discussion it was realised that the source of the error was a recent change in the standard way of defining the keys in a FITS header, and a conflict was arising as the routine attempted to extract the date from the header. This was solved by editing the header creation script in the DRACO control software source code. The program TOPCAT was found to be extremely useful for the processing and consolidation of large tables of data when in ascii form, where Excel struggled to format them correctly. The plotting tools available in TOPCAT were also more suitable to the experiment, containing options such as auxiliary axes. EMACS was also found to be of use for the killing and yanking of data into new files. From our data, no conclusions can be made in relation to XX Ands Blazhko period, which the literature quotes as 36 days. Although 3 maxima were observed, and all were of slightly different magnitude, the differences can easily be explained simply by statistical variance, and is not indicative of a long overarching period. Further work would attempt to span a much longer timescale, for example 4 or 5 months, in order to capture at least 4 Blazhko periods, and confirm this feature of XX And. PDM Win 3.0 was found to be a preferable method to the bforce routine for period finding, for a number of reasons already discussed in section II, but a major benefit of this method is that it allows the user to manually choose the minimumvalue using a plot ofagainst. bforce on the other hand simply finds the minimum value of , but ignores the possibility of multiple small statistical oscillations around the minimum. This is best demonstrated in 12 below: 12: Screenshot of the GUI of PDM Win 3.0, showing the point in the process where the user is able to pick the point that best represents the minimum of the plot, to give the most accurate value for the period. It can be seen that were simply the lowest value of to be used, the period found could be multiple values in the range 0.72268 to 0.72275 days. For future studies, a more comprehensive investigation of the light curve would be undertaken, and specifically a Fourier analysis would be performed using the Python module Numpys FFT function. The Fourier decomposition of the light curve would allow the use of Equation (11) to accurately determine both the metallicity of the variable star, and its period. This would be extremely helpful in determining a more accurate value for both the distance to XX And, and the radius. During this study an attempt was made to transform the light curve, but no sensible results were obtained. The main code used was based around creating an array containing the phase and magnitude data by reading the ascii data file, in and performing a Fast Fourier Transform on the data: arr=numpy.array([]) a=open(data,r) b=[] for line in a.readlines(): data_a, data_b= (line.split(,)) data_a = float(data_a) data_b = float(data_b) b.append(data_a) b.append(data_b) x=len(b) arr=numpy.array(b) arr.shape=(x/2),2 FFT=fft(arr) y=len(arr) print Zero-frequency Term = , FFT[0] print Positive-frequency Terms = , FFT[1:y/2+1] print Negative -frequency Terms = , FFT[y/2+1:] The coefficients produced were around one order of magnitude too high, caused possibly by sampling rates being too low, and so the process was discarded from the main experimental method. Refinement of this process would be a priority for any further study. The Hump and the Bump From examination of the full light curve for XX And, it became apparent that there were distinct features to the minimum point and along the rising edge. As noted in Section IV these were termed the Hump and the Bump of the light curve by Christyxxiii. They are apparent in over 82% of RRab stars, for example RX Eri, and RR Lyrae itself[xxxiv]. The sources of these increases in magnitude have been considered in many papers, and are still under some contention. These features are considered to be the result of two separate shockwaves emanating from within the stars photospheric layer. The Hump is postulated to be the result of the main shockwave, and is characterised by a standstill on the light curve where the magnitude increases very rapidly to a point, and then increases more slowly up to the maximum. It is followed by a line doubling of the H emission from the star and accompanied by an extreme spike in the ultra violet emission in the stars spectrum. It is postulated that the shockwave occurs when the photosphere of the star reaches its minimum radius, and experiences a very rapid acceleration towards the surface, as a result of the opacity mechanism (see Equation (9)). This collides with higher atmospheric layers, splitting them into two one moving towards the core and the other moving outwards. This is the source of the doubling of the H linesi. The Bump is a small increase in magnitude which occurs as the star is approaching its minimum radius, followed by a weak spike in ultra violet emission from the star, but with no H line doubling. Two competing theories have been proposed: * The Infall Theory Having been pushed to maximum radius by the previous pulsation, material falls towards the core in freefall. It collides with the slower moving photosphere as it approached minimum radius, and a shockwave is caused by the rapid deceleration. * The Echo Theory As the star contracts, a compression wave reaches the stellar core at high speed and is reflected, causing a shockwave in the other infalling matter. Originally the Echo model was rejected in favour of the Infall model, as the outward moving shockwave would be expected to produce the same line doubling phenomenon as seen in the Hump. However, recent studies[xxxv] on cluster RRab variables have noted that the delay time for the Bump is larger for stars with greater radii, as would be expected from a echo-produced shockwave. Also, it has been postulated that the magnitude increase during the Bump is actually sourced in the heating of material caused by the speed of infall[xxxvi]. Investigations are continuing into the source of this magnitude increase. VI. Conclusions The study of RR Lyrae stars is still extremely important in modern astronomy. These variables are still poorly understood in many areas, especially their typical properties, their pulsation mechanisms (specifically in Blazhko variables) and the reasons for shock waves occurring deep within the star. They are vital for the estimation of distances both within our own galaxy and out into the Local Group, since they are more abundant than Cepheids and occur in areas (globular clusters for example) where Cepheids are not found. This study of XX Andromeda focussed on estimating the properties of said star, an RRab type variable. Observations taken over a month were reduced using an automated photometry pipeline, and 4526 data points were used to plot a light curve for XX And. The target star was found to have a fundamental mode pulsation period ofdays, estimated using three methods, two PDM based routines and an O-C plot minimisation. This was in excellent agreement with the literature period found in the GCVS of 0.722747 days. An estimate of the distance to XX And of pc was made using a main sequence fit and a literature value for the metallicity. An estimate for the radius of XX And was also made, and found to be. This value is in agreement with the generally accepted range of RR Lyrae type variable radii, as quoted in Section I. The two comparison stars were confirmed to be non-variable, and thus suitable for the photometry process. An improvement to the pipeline was suggested, namely the addition of automated flatfielding in DRACO images, to remove the possibility of dust grains on the surface of the detector interfering with photometry, especially (in this case) differential photometry. Reasons are suggested for the Hump and Bump features of the light curve, specifically that they are the result of shockwaves occurring at different points during the pulsation process. In conclusion, despite initial bad weather and some data processing problems, this study has resulted in a high quality light curve and several good estimates of the properties XX Andromeda. Appendix Error on the distance comes from taking the standard error of the mean apparent magnitude, and propagating this through Equation (12): Error on the radius is from the propagation of the error on the period through Equation (14) as follows: Jackknifing The jackknife technique was used to estimate the errors on both the bforce and PDM Win 3.0 programs. This was achieved by recomputing the period, but leaving out one observation at a time from the dataset. The error on the total period will then be the standard deviation of these results: Calibration Stars used: Calibration Stars USNOA2.0 Cat Number RA Dec 1 1275-00761527 1:16:55.68 38 55 36.1 2 1275-00765817 1:17:20.69 39 00 38.7 Photometric Stars Photometric Star RA Dec BT mag VT mag V 1 1:18:20.581 38 55 38.23 9.967 9.856 9.847 2 1:14:50.729 38 29 55.80 10.301 9.989 9.961 3 1:15:12.229 38 49 10.95 9.564 9.091 9.048 4 1:16:39.436 39 09 38.64 11.028 9.842 9.735 Table A.2: Photometric Stars Focussing Star Focussing Star RA Dec 1 01:36:47.8 41.405549 Table A.3: Focussing Star Observing Times Date Time On Time Off Telescope Conditions 04/11/09 18:30 20:30 14-inch Cloudy 05/11/09 21:10 22:15 14-inch Cloudy 06/11/09 21:02 22:52 14-inch Clear 06/11/09 21:20 01:15 DRACO Clear 08/11/09 20:00 23:00 14-inch Clear 09/11/09 18:30 22:02 DRACO Clear 14/11/09 18:24 00:20 DRACO Clear 15/11/09 17:05 00:13 DRACO Clear (data taken by JRL) 20/11/09 17:14 00:05 DRACO Clear 20/11/09 20:46 22:09 14-inch Clear 23/11/09 17:51 22:35 DRACO Clear 23/11/09 21:04 21:44 14-inch Clear 25/11/09 18:29 00:26 DRACO Clear (data taken by JRL) 26/11/09 16:58 00:53 DRACO Clear Table A.4: Observing times VIII. References [1] Dependant on wavelength CCDs are more efficient in the visible spectrum than in any other region of the E-M Spectrum [2] This may change with the launch of the successor to Hipparcos, the ESAs Gaia mission, expected to launch in Spring 2012. [i] RR Lyrae Stars, Horace A. Smith, Cambridge University Press, 1995 [ii] RR Lyrae Stars in the Andromeda Halo, T. Brown et al, 2004, Astrophysical Journal (henceforth ApJ), 127, 2738-2752 [iii] N.N. Samus, et al., General Catalogue of Variable Stars (Samus+ 2007-2009), 2009yCat.102025S, https://www.sai.msu.su/groups/cluster/gcvs/gcvs/ [iv] Hipparcos Catalogue, ESA, https://archive.ast.cam.ac.uk/hipp/hipparcos.html [v] The RR Lyrae Period-Luminosity Relation, M. Catelan et al, 2004, ApJ, 154, 633-649 [vi] The Determination of reddening from intrinsic VR Colours of RR Lyrae Stars, A. Kunder B Chaboyer, 2009, arXiv:0911.1770v1, [vii] Guldenschuh, K.A., Layden, A.C., Wan, Y., et al.2005, Publications of the Astro. Soc. of the Pacific, 117, 721 [viii] The Distance to the Galactic Centre derived from infrared photometry of bulge Red Clump Stars, S. Nishiyama et al, 2006, arXiv:astro-ph/0607408v1 [ix] DSS Image retrieved from https://archive.stsci.edu/cgi-bin/dss_form, accessed 20/12/09. [x] Scientific Charge-Coupled Devices, J. Janesick, SPIE Press, 2001 [xi] Image Analysis with a CCD camera, M. Grindley, Level 2 Lab report, Durham University, 2009 [xii] Handbook of CCD Astronomy, S. Howell, 2nd Ed., Cambridge University Press, 2006 [xiii] A Practical Guide to CCD Astronomy, P. Martinez A. Klotz, Cambridge University Press, 2000 [xiv] SBIG website, technical specifications page, accessed 14/01/10, https://www.sbig.com/sbwhtmls/online.htm [xv] Handbook of Astronomical Image Processing, R. Berry J. Burnell, Wilmann-Bell Inc., 2002 [xvi] Measuring the Signal-to-Noise Ratio S/N of the CCD image of a star or nebula, J. H. Simonetti, 2004, https://www.phys.vt.edu/~jhs/phys3154/snr20040108.pdf [xvii] Phase Dispersion Minimization for Windows 3.0, Andreas Widjaja, 1995, downloaded from VSNet. [xviii] The correct probability distribution for the phase dispersion minimization periodogram, A. Schwarzenberg-Czerny, 1997, ApJ, 489, p.941 [xix] Harvard College Observatory Annals, S. I. Bailey, 1902, 38, 1 [xx] Australia Telescope Outreach Education website, accessed 10/01/2010, https://outreach.atnf.csiro.au/education/senior/astrophysics/stellarevolution_hrintro.html [xxi] Physical Parameters of the SMC RR Lyrae Stars, S. Deb K. Singh, 2009, arXiv:astro-ph/0909.0900v1 [xxii] The Internal Constitution of the Stars, A. S. Eddington, 1926, Cambridge Univ. Press [xxiii] Christy, R. F. 1966, ApJ, 99, 240 [xxiv] The Blazhko Project website, accessed 22/12/09, https://www.univie.ac.at/tops/blazhko/Background.html [xxv] Predicted and Empirical radii of RR Lyrae stars, Marconi, M. et al , 2005, arxiv:astro-ph/0503382v1 [xxvi] Determination of [Fe/H] from the light curves of RR Lyrae stars, Jurcsik Kovcs, 1996, Astronomy Astrophysics (henceforth AA) , 312, 111-120 [xxvii] Longmore, A. J. et al, 1985, Monthly Notices of the Royal Astronomical Society, 216, 873 [xxviii] Northern Sky Variability Survey (NSVS) database, https://skydot.lanl.gov/nsvs/nsvs.php [xxix]SIMBAD database, CDS, https://simbad.u-strasbg.fr/simbad/ [xxx] David J. Lane, https://www.nova-astro.com/, accessed 2009 [xxxi] GEOS RR Lyrae survey archive, accessed 20/12/09, last update 11/11/08, https://dbrr.ast.obs-mip.fr/txtfiles/OC0096.txt [xxxii] Understanding Variable Stars, John. R . Percy, 2007, Cambridge University Press [xxxiii] NED Galactic extinction estimator, https://nedwww.ipac.caltech.edu/forms/calculator.html, data originally from Maps of Dust Infrared Emission for Use in Estimation of Reddening and Cosmic Microwave Background Radiation Foregrounds, D. Shlegel et al, 1998, ApJ, 500, 595. [xxxiv] Bump, hump and shock waves in the RR Lyrae stars X Ari and RR LYR, Gillet, D. Crowe, R. A., 1988, AA, 199, 242-254. [xxxv] Carney et al, 1992, ApJ, 386, 663 [xxxvi] Gillet et al, 1989, AA, 225, 445 [xxxvii] https://www.dur.ac.uk/physics.astrolab/

Who Owns the Ice House Essay - 1212 Words

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Kurt Lewin Essay Example For Students

Kurt Lewin Essay Kurt LewinKurt Lewin was a great innovater at his time in the field of Psychology. The theories he developed, the methods of reserch he used and the people he influenced all have had a profound impact on Psychology and even more specifically on Social Psychology. Lewin was born in 1890 in what is now Poland but at the time was the Prussian province of Posen, in the village of Moglino and was the second of four children (Greathouse). His parents owned a general store, and a farm on the outskirts of the village. When Lewin was fifteen his family moved away from the small village, the farm and their store and went to Berlin. It was in Germany was where Lewin began his formal education, but like most people he was unsure of what he really wanted to study at first. In 1909 Lewin began attending the University of Frieberg where he started to study medicine. This did not interest him so he transferred to the University of Munich where he tried to study Biology. Again Lewin decided that this was not for him so he transferred for the last time, this time to the University of Berlin where his study of Philosophy and Psychology began (Frostburg). Lewin was said to have found many of (the schools) departments courses in the grand tradition of Wundtian psychology irreverant and dull (Greathouse). He would eventually receive his Ph. D. in the experimental study of associative learning at the University of Berlin in 1916 (Jones). Lewin was married twice in his life, the first time in 1917 to a schoolteacher named Maria Landsberg with whom he had the first two of his four children, but in 1927 they divorced. In 1929 he remarried to Gertrud Weiss who he had his third and fourth child with (Frostburg). But before Lewin actually received his degree, he served in the German Army during World War I. While in the service Lewin rose from the rank of private to Lieutenant and was wounded in battle (Jones). These experiences may have had a significant effect on his later research on group psychology. After the war in 1921 Lewin began work at the Psychological Institute at the University of Berlin, where he had the opportunity to work with Wolfgang Kohler and Wertheimer the developers of Gestalt Psychology . The emphasis that these men put on looking at the whole picture rather than the sum of its parts in regards to their research had a palpable impact on Lewins work for the rest of his life. In 1932, after several years of work with Wertheimer and Kohler in Germany, Lewin was invited to be a visiting professor at Stanford University (Patnoe pf.3). He stayed in the United States for six months and then moved back to Germany just as Hitler was coming to power. Being a Jew Lewin wanted to get out of the country as fast as possible. Luckily he was able to do this because of the Committee on Displaced Scholars (Frostburg). Lewins first job after his immigration was at Cornell. There he did studies concerning social pressure on eating habits in children (Patnoe pg. 4). During his time there Lewin published one of his eight books, A Dynamic Theory of Personality. After two years of work and the exhaustion of funds at Cornell, Lewin took a new position at The University of Iowa at their Child Welfare Research Station where he would stay for ten years (Frostburg). In 1945 he moved back to the East Coast and established two new centers of research and study of his own; one at M. .ub1f5f7b72ef6e2f59a6f35d0ba34ffd6 , .ub1f5f7b72ef6e2f59a6f35d0ba34ffd6 .postImageUrl , .ub1f5f7b72ef6e2f59a6f35d0ba34ffd6 .centered-text-area { min-height: 80px; position: relative; } .ub1f5f7b72ef6e2f59a6f35d0ba34ffd6 , .ub1f5f7b72ef6e2f59a6f35d0ba34ffd6:hover , .ub1f5f7b72ef6e2f59a6f35d0ba34ffd6:visited , .ub1f5f7b72ef6e2f59a6f35d0ba34ffd6:active { border:0!important; } .ub1f5f7b72ef6e2f59a6f35d0ba34ffd6 .clearfix:after { content: ""; display: table; clear: both; } .ub1f5f7b72ef6e2f59a6f35d0ba34ffd6 { display: block; transition: background-color 250ms; webkit-transition: background-color 250ms; width: 100%; opacity: 1; transition: opacity 250ms; webkit-transition: opacity 250ms; background-color: #95A5A6; } .ub1f5f7b72ef6e2f59a6f35d0ba34ffd6:active , .ub1f5f7b72ef6e2f59a6f35d0ba34ffd6:hover { opacity: 1; transition: opacity 250ms; webkit-transition: opacity 250ms; background-color: #2C3E50; } .ub1f5f7b72ef6e2f59a6f35d0ba34ffd6 .centered-text-area { width: 100%; position: relative ; } .ub1f5f7b72ef6e2f59a6f35d0ba34ffd6 .ctaText { border-bottom: 0 solid #fff; color: #2980B9; font-size: 16px; font-weight: bold; margin: 0; padding: 0; text-decoration: underline; } .ub1f5f7b72ef6e2f59a6f35d0ba34ffd6 .postTitle { color: #FFFFFF; font-size: 16px; font-weight: 600; margin: 0; padding: 0; width: 100%; } .ub1f5f7b72ef6e2f59a6f35d0ba34ffd6 .ctaButton { background-color: #7F8C8D!important; color: #2980B9; border: none; border-radius: 3px; box-shadow: none; font-size: 14px; font-weight: bold; line-height: 26px; moz-border-radius: 3px; text-align: center; text-decoration: none; text-shadow: none; width: 80px; min-height: 80px; background: url(https://artscolumbia.org/wp-content/plugins/intelly-related-posts/assets/images/simple-arrow.png)no-repeat; position: absolute; right: 0; top: 0; } .ub1f5f7b72ef6e2f59a6f35d0ba34ffd6:hover .ctaButton { background-color: #34495E!important; } .ub1f5f7b72ef6e2f59a6f35d0ba34ffd6 .centered-text { display: table; height: 80px; padding-left : 18px; top: 0; } .ub1f5f7b72ef6e2f59a6f35d0ba34ffd6 .ub1f5f7b72ef6e2f59a6f35d0ba34ffd6-content { display: table-cell; margin: 0; padding: 0; padding-right: 108px; position: relative; vertical-align: middle; width: 100%; } .ub1f5f7b72ef6e2f59a6f35d0ba34ffd6:after { content: ""; display: block; clear: both; } READ: Nutrition and AIDS EssayI.T., The Research Center for Group Dynamics and in New York, the Commission for Community Interrelations (Patnoe pg.8-9). His aspirations for the two centers were that they would corroborate to combine scientific study with Action Research in an effort to answer questions about human affairs particularly those regarding prejudice (Patnoe pg.9) The Research Center at M.I.T. did the laboratory and field research side of the work while the Commission for Community Interrelations would test the theories the Resarch commision developed and feed problems back to the M.I.T. experimenters (Patnoe pg. 10). This circular style of research, using experimentation to test hypothesies, was the first of its kind in psychology and it proved very effective. Lewin worked tirelessly in the laboratory, traveling between the two facilities and in raising funds for his research; so much so that many think that it heavily contributed to his death in 1947 at 56 years old of a heart attack (Patnoe pg.10). Lewins most celebrated impact on the world of psychology was the development of his field theory. Field Theory proposes that behavior is a function of the person interacting with the environment (Gazzaniga pg.414) The importance of this was that it challenged the idea that all human actions are based on internal impulses. Lewin argued that our behavior is based on much more complicated factors like our environment and a persons characteristics(Jones). However obvious or simple this idea may seem to us almost seventy years later this was truly a revolutionary idea for its time. Even though Lewins Field Theory was a crucial step forward for Psychology and himself, it was not by any means his only significant contribution to the field. There was genius in his approach to his work. First of all he chose to establish the Research Center for Group dynamics at M. I.T., where the institution is known for their hands off policy in regards to their limitations on research and research methods. MITs stand on professor adiministration relations was we hired you because you are an expert in the field and if thats what you want to do, ok (Patnoe pg. 14). So this gave Lewin and his colleagues a great deal of freedom to brainstorm and try methods of research and experimentation that had never been tried before. This freedom allowed for what Lewins coworkers have called a uniquely productive environment(Patnoe pg.14). But, Lewin did not only accomplish this at M.I.T. he had been known to, raise the bar so to speak where ever he went. Students and colleagues working under at different times and at different institutions have said that they felt like the were doing important work (Patnoe pg. 15). and there is very little that can provide for a better working environment then honest pride in ones work.Kurt Lewins work in Child Psychology, Group Psychology, Social Psychology, the psychology of prejudice and his new methods of testing and retesting theories through Action Research were all groundbreaking at the time and continue to have their impact on the field today. But, Lewin was not only a genius in terms of his work in Psychology, he also had a great ability to make the people that he was working with better at their own work. Many of his students and colleagues went on to be some of the most influential minds in psychology. The group he worked with at MIT at the end of his life was especially influential. A study in 1984 showed that eight of the ten most cited social psychologists are direct descendants of this line of researchers (Patnoe pg. 11). It is fair to say that Kurt Lewin was the father of modern Social Psychology.

Personal Navigation Devices Essay Example

Personal Navigation Devices Paper 1. Why have Personal Navigation Devices become popular? What technologies are required to facilitate the success of PND? Personal navigation devices can become the next must-have gadgets. They add more comfort in the busy life in the sense that they give you an ability to concentrate on one thing less. PND like, say, GPS are starting to win over customers, from weekend hikers or bikers to people who are just tired of their lousy sense of direction. Some consumer GPS navigation devices feature interactive street maps that may also show route information, and step-by-step routing directions. For these reasons PND’s are very helpful and useful. 2. Who are some of the leaders in PNDs? What are the likely factors that will contribute to winning in this marketplace? There are many companies, which try to develop and enhance PNDs, but probably the most famous leaders are TomTom, Garmin, Navigation, Magellan. The most important factors for the competitors that will contribute to winning in the marketplace I think are the ability to build a device which would be multifunctional and portable, not costly and with the features which would satisfy different customers depending on their particular interests and needs. 3. What will be a likely future for PNDs? I believe that dedicated PNDs will continue to be preferred for use in the car. However, in-car navigation systems will be complemented by handset-based systems for pedestrian navigation. New devices such as portable media players, ultra mobile PCs, Internet tablets and mobile Internet devices will also integrate navigation systems into their applications. 4. Apply as many TCOs to Personal Navigation Devices as possible. I decided to choose Garmin, since it’s easier to apply TCOs to the company: Garmin is the parent company of a group of companies founded in 1989, that develops consumer, aviation, and marine technologies for the Global Positioning System. To protect their property, most of the processes Garmin patented, but most of its software and applications are licensed, except some of them like, for example, XM Patent Application for Sending and Receiving Images. Garmin is very competent in the various fields like GPS receivers, StreetPilot devices, GPS eTrex series, iQue line of integrated PDA-GPS receivers, sonar fishfinders with GPS capabilities. The company should continue to collaborate with the different vendors and complementors to add the new features. It probably should develop more independent marketing and manufacturing units around the World to increase and encourage the RD. The company probably has to work more in the different directions, but based on the existing and recognized strength – developing navigation devices. Recently it achieved the great reputation in the developing navigation systems for the aircrafts and â€Å"won† the huge revenue. We will write a custom essay sample on Personal Navigation Devices specifically for you for only $16.38 $13.9/page Order now We will write a custom essay sample on Personal Navigation Devices specifically for you FOR ONLY $16.38 $13.9/page Hire Writer We will write a custom essay sample on Personal Navigation Devices specifically for you FOR ONLY $16.38 $13.9/page Hire Writer

Self-determination of Africans in the U.S. Essays - Autonomy

Self-determination of Africans in the U.S. Essays - Autonomy Self-determination of Africans in the U.S. March 23rd, 2015 Intro to Afro-American Studies Dr. Carr Framing Question #3: What are some of the similarities and differences in practices of self- determination of Africans in the U.S. and their counterparts throughout the hemisphere? Abstract: African resistance shaped to local, regional and national elements of the Modern World System social structures. By the late seventeenth and eighteenth century, many African learned how to resist the temptations of slavery. They learned these techniques of resistance from the white people in the United States and the Western Hemisphere. Because they learned such techniques, Africans were able to emerge and started to revolt to resist enslavement. Because of the many sacrifices that Africans had made they were able to sustain their culture, making it the origin of humankind. Africans finally realized that if they were going to overcome enslavement that they had to overcome dominating social structure. Critical Review of Scholarship: In order to answer this framing question, I will be using information from Dr.Carrs lecture and information from the power points that were provided to us as well as the books that were given in the beginning of the semester. African people practiced self-determination in many ways and depending on social structure, they were able to find themselves, according to Cedric Robinson. In order to continue practicing these practice of self-determination they joined alongside the British in the American Revolution. Africans joined alongside the British in hope of obtaining their freedom and finally being considered as civilized and equal people. This book offered an large amount of information on the Africans struggle for resistance of enslavement. Discussion: Africans in the United States had significantly adapted their techniques of resistance to the particular contexts of the emerging U.S. nation-state, even as Africans elsewhere in the Western Hemisphere had done the same in their respective countries/colonies. Instances of maroonage, quilombismo, or other attempts to convene Black spaces in which to self-determine began to follow the racial, class, gender and cultural particularities of the Europeanizing impulses. This abstract of framing question gives segue to what is going to be talked about and looked for when answering this framing question. There were several themes that struck me related to this topic such as maroonage. Maroonage had seemed to be a common way that Africans resisted enslavement. Maroons were said to be small private communities that served as a safe haven for runaway slaves and indentured servants, people where equal and there was no hierarchy. Some similarities between slaves in this hemisphere were the use of culture to resist enslavement, which was through art, music, dance, and literature. Some differences were that Africans that were freed forgot their roots and the foundations in which they came from. This caused a disconnect between traditional Africans and those who were more into the world. Such disconnect cause discord and much disagreement amongst Africans. They did this thinking that the Europeans would accept them into their culture instead they were actually manipulating them and breaking them apart. They continued on the verge of enslaving Africans and selling them for profit. Further Questions: -Why did the Africans that were freed actually think that the Europeans would accept them into their society so easily? -Why didnt the Africans that were freed stick by the other Africans side of those who were not freed?

a piece about a murder, written for my advanced writing class

a piece about a murder, written for my advanced writing class You could have been an angel, Tyler . . . an angel like the ones in heaven, shimmering and golden and perfect . . . just like you used to be . . ."I know that."You only put this upon yourself when you made that decision . . . it was nobody's choice but your very own . . . you choose your own fate . . ."I know that."Maybe someday you'll look back on this and laugh . . . or we could all be realistic . . . after all, it's not every day somebody commits this kind of crime. . ."I know that already!" he yelled at the nameless, faceless thing that taunted him. Tyler found himself perched half way on the edge of his bed, his hands gripping what was left of his blond hair, pieces and chunks torn out from his anguished fits of fury with the voices that stayed there and taunted him.Mother Frances Hospital, Tyler, TexasYou need to stay calm . . . they'll found you out sooner or later, but better later . . . right Tyler?"Right." He hugged his knees to his chest, peering over them and into the dar k of his room, his nightstand looming straight ahead of him like a dark mountain, his clothes piled in mounds, like foothills, around it. The moon light shown through the blinds of his window in tiny slivers across his floor, little slash marks on the carpet, the ivory colored carpet that matched the now non-existant color of the one next door . . .There will be hell to pay for this . . . you were stupid, very stupid Tyler . . ."I know," he chimed again, beginning a steady back and forth rocking on his...

Ethnographic Study of the Skateboarding Culture Essay

Ethnographic Study of the Skateboarding Culture - Essay Example The purpose of this essay is to provide an ethnographic description of the language, behavior, values and beliefs of the skateboarders in order to understand their cultural orientation as a group. In this ethnographic study, the culture of skateboarding is described through observing skateboarders in action. The findings suggest ideas of concern for safety, acceptance, progression, self-expression of style and energy & drive. Through the observation of cultural artifacts and styles of communication, the culture of competitive skateboarding is described and all the generalizations encompassed in skateboarding discussed. Using the small sample of skateboarders, data will be collected and analyzed in order to draw conclusions about the culture of skateboarding ethnographically. This essay has revealed that skaters are not rebels or social deviants, as they are normally perceived by the society. They are often banned from certain areas because of this perception and this limits their fre edom. The female skateboarders describe it as comfortable, empowering, adventurers and fun. The males also say the same as everyone seems to be happy with skateboarding because of their love for it. The researcher states that skateboarders should not be judged harshly as the case is because they have a good organizational culture. The culture empowers them into being responsible adults because it encourages cooperation and support for each other regardless of the differences based on age, race or sexual orientation.