# drop02.gp1 # uses newer gnuplot set terminal png background "#ffffff" font VeraBd 20 size 1024,768 set style line 1 lt 1 lw 1.0 lc rgb "#ffffff" set style line 2 lt 1 lw 1.5 lc rgb "#000000" set style line 3 lt 1 lw 4.0 lc rgb "#C0FFEE" set style line 4 lt 1 lw 2.0 lc rgb "#C0FFEE" set style line 5 lt 1 lw 4.0 lc rgb "#00F000" set style line 6 lt 1 lw 3.0 lc rgb "#F00000" set style line 7 lt 1 lw 3.0 lc rgb "#404080" set style line 8 lt 1 lw 3.0 lc rgb "#000040" set style line 10 lt 1 lw 3.0 lc rgb "#F00000" set style line 11 lt 1 lw 3.0 lc rgb "#C08000" set style line 12 lt 1 lw 3.0 lc rgb "#80C000" set style line 13 lt 1 lw 3.0 lc rgb "#00F000" set style line 14 lt 1 lw 3.0 lc rgb "#00C080" set style line 15 lt 1 lw 3.0 lc rgb "#0080C0" set style line 16 lt 1 lw 3.0 lc rgb "#1010FF" set style line 17 lt 1 lw 3.0 lc rgb "#8010D0" set style line 18 lt 1 lw 3.0 lc rgb "#C00080" set style line 19 lt 1 lw 3.0 lc rgb "#A0A0A0" set style line 20 lt 1 lw 3.0 lc rgb "#40C0F0" set grid xtics ytics mxtics mytics ls 3 , ls 4 set mxtics 5 set mytics 10 set ylabel 'altitude in km' set xlabel 'time in days' set key bottom right set title '5.0 m2/kg Thinsat Reentry: Altitude' set output 'd50_altitude.png' plot \ 'drop02_070_50.dat' using ($1/86400):2 w li ls 15 t "solar min", \ 'drop02_150_50.dat' using ($1/86400):2 w li ls 16 t "solar avg", \ 'drop02_250_50.dat' using ($1/86400):2 w li ls 17 t "solar max" set title '2.5 m2/kg Thinsat Reentry: Altitude' set output 'd25_altitude.png' plot \ 'drop02_070_25.dat' using ($1/86400):2 w li ls 15 t "solar min", \ 'drop02_150_25.dat' using ($1/86400):2 w li ls 16 t "solar avg", \ 'drop02_250_25.dat' using ($1/86400):2 w li ls 17 t "solar max" set ylabel 'altitude in km' set xlabel 'meters per second' set key top left set title 'Thinsat Reentry: Orbit velocity versus altitude' set output 'd02_orbitvelocity.png' plot \ 'drop02_070_50.dat' using 3:2 w li ls 15 t "solar min 5.0m2/kg", \ 'drop02_150_50.dat' using 3:2 w li ls 16 t "solar avg 5.0m2/kg", \ 'drop02_250_50.dat' using 3:2 w li ls 17 t "solar max 5.0m2/kg", \ 'drop02_070_25.dat' using 3:2 w li ls 18 t "solar min 2.5m2/kg", \ 'drop02_150_25.dat' using 3:2 w li ls 19 t "solar avg 2.5m2/kg", \ 'drop02_250_25.dat' using 3:2 w li ls 20 t "solar max 2.5m2/kg" set ylabel 'altitude in km' set xlabel 'Kelvin' set key top right set title 'Thinsat Reentry: Temperature versus altitude' set output 'd02_temperature.png' set mxtics 10 plot \ 'drop02_070_50.dat' using 7:2 w li ls 15 t "solar min 5.0m2/kg", \ 'drop02_150_50.dat' using 7:2 w li ls 16 t "solar avg 5.0m2/kg", \ 'drop02_250_50.dat' using 7:2 w li ls 17 t "solar max 5.0m2/kg", \ 'drop02_070_25.dat' using 7:2 w li ls 18 t "solar min 2.5m2/kg", \ 'drop02_150_25.dat' using 7:2 w li ls 19 t "solar avg 2.5m2/kg", \ 'drop02_250_25.dat' using 7:2 w li ls 20 t "solar max 2.5m2/kg" set ylabel 'altitude in km' set xlabel 'meters per second' set mxtics 10 set key at 12.0, 185.0 set logscale x set title 'Thinsat Reentry: Descent velocity versus altitude' set output 'd02_descentvelocity.png' plot \ 'drop02_070_50.dat' using (-$4):2 w li ls 15 t "solar min 5.0m2/kg", \ 'drop02_150_50.dat' using (-$4):2 w li ls 16 t "solar avg 5.0m2/kg", \ 'drop02_250_50.dat' using (-$4):2 w li ls 17 t "solar max 5.0m2/kg", \ 'drop02_070_25.dat' using (-$4):2 w li ls 18 t "solar min 2.5m2/kg", \ 'drop02_150_25.dat' using (-$4):2 w li ls 19 t "solar avg 2.5m2/kg", \ 'drop02_250_25.dat' using (-$4):2 w li ls 20 t "solar max 2.5m2/kg" set title 'Thinsat Reentry: Density versus altitude' set xlabel 'density in kg/m3' set ylabel 'altitude in km' set format x "%5.0e" set logscale x set mxtics 20 set xtics 1e-13,100,1 set xrange [1e-13:1] set key at 1e-3, 350.0 set output 'd02_density.png' plot \ 'drop02_070_50.dat' using 8:2 w li ls 15 t "solar min" , \ 'drop02_150_50.dat' using 8:2 w li ls 16 t "solar avg" , \ 'drop02_250_50.dat' using 8:2 w li ls 17 t "solar max"