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authorG Sri Harsha2020-05-16 17:51:34 +0530
committerGitHub2020-05-16 17:51:34 +0530
commitb33b7b9962b9186de770d37d4211330354cf14b3 (patch)
tree02bc0be963cae6c190eb365bdb4146bcb75dc355 /FSF-2020
parentb02030eee74d000da6e939db98e76670d22d7c37 (diff)
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-rw-r--r--FSF-2020/series-and-transformations/script1.py128
1 files changed, 128 insertions, 0 deletions
diff --git a/FSF-2020/series-and-transformations/script1.py b/FSF-2020/series-and-transformations/script1.py
new file mode 100644
index 0000000..28eb07c
--- /dev/null
+++ b/FSF-2020/series-and-transformations/script1.py
@@ -0,0 +1,128 @@
+from manimlib.imports import *
+
+
+def formFormula(coeff_list,variable_list):
+ coeff_list=[TextMobject("${ a }_{ 0 }$"),TextMobject("${ a }_{ 1 }$"),TextMobject("${ a }_{ 2 }$")]
+ variable_list=[TextMobject("+"),TextMobject("${ x }$+"),TextMobject("${ x }^{ 2 }$")]
+ coeff_list[0].shift(2.2*UP+1.6*LEFT)
+ for i in range(0,3):
+ coeff_list[i].set_color(GOLD_A)
+ variable_list[i].next_to(coeff_list[i],buff=0.1)
+ if i!=2:
+ coeff_list[i+1].next_to(variable_list[i],buff=0.1)
+ dots=TextMobject("...")
+ dots.next_to(variable_list[2])
+ expansion=VGroup(coeff_list[0],coeff_list[1],coeff_list[2],variable_list[0],variable_list[1],variable_list[2],dots)
+ expansion.scale(0.7)
+ return expansion
+
+class pieChart(Scene):
+ def construct(self):
+ circle1=Circle(radius=3,color=BLUE)
+ powerText=TextMobject("Power Series")
+ powerText.scale(0.8)
+ self.play(FadeIn(powerText))
+ self.play(ShowCreation(circle1))
+ self.wait(1)
+
+ powerGroup=VGroup(circle1,powerText)
+
+ self.play(ApplyMethod(powerGroup.scale,0.5))
+ self.play(ApplyMethod(powerGroup.move_to,2.2*UP))
+ self.wait(0.5)
+ expansion_power_coeff=[]
+ variables_power=[]
+ expansion_power=formFormula(expansion_power_coeff,variables_power)
+ self.play(ReplacementTransform(powerText,expansion_power))
+ self.wait(1)
+
+ circle2=Circle(radius=1.5)
+ circle2.shift(2.2*UP)
+ expansion_geo_coeff=[0]*3
+ variables_geo=[0]*3
+ arrow1_2=Line(start=0.7*UP,end=2.5*LEFT)
+ expansion_geo_coeff=[TextMobject("${ a }_{ 0 }$"),TextMobject("${ a }_{ 1 }$"),TextMobject("${ a }_{ 2 }$")]
+ for i in range(0,3):
+ expansion_geo_coeff[i].set_color(GOLD_A)
+ variables_geo=[TextMobject("+"),TextMobject("${ x }$+"),TextMobject("${ x }^{ 2 }$")]
+ expansion_geo_coeff[0].shift(2.2*UP+1.6*LEFT)
+ for i in range(0,3):
+ variables_geo[i].next_to(expansion_geo_coeff[i],buff=0.1)
+ if i!=2:
+ expansion_geo_coeff[i+1].next_to(variables_geo[i],buff=0.1)
+ dots=TextMobject("...")
+ dots.next_to(variables_geo[2])
+ expansion_geo=VGroup(expansion_geo_coeff[0],expansion_geo_coeff[1],expansion_geo_coeff[2],variables_geo[0],variables_geo[1],variables_geo[2],dots)
+ expansion_geo.scale(0.7)
+
+ self.play(ApplyMethod(circle2.shift,4*LEFT+2.5*DOWN),ApplyMethod(expansion_geo.shift,4*LEFT+2.5*DOWN))
+ self.add(arrow1_2)
+ self.wait(1)
+
+ ones=[TextMobject("1"),TextMobject("1"),TextMobject("1")]
+ for i in range(0,3):
+ ones[i].set_color(GOLD_A)
+ ones[0].shift(0.3*DOWN,5*LEFT)
+ ones[1].next_to(ones[0],buff=0.5)
+ ones[2].next_to(ones[1],buff=0.7)
+ self.play(ReplacementTransform(expansion_geo_coeff[0],ones[0]),ReplacementTransform(expansion_geo_coeff[1],ones[1]),ReplacementTransform(expansion_geo_coeff[2],ones[2]))
+ self.wait(1)
+ expansion_geo=VGroup(ones[0],ones[1],ones[2],variables_geo[0],variables_geo[1],variables_geo[2],dots)
+
+ expansion_geo_final=TextMobject("$1+x+{ x }^{ 2 }..$")
+ expansion_geo_final.scale(0.8)
+ expansion_geo_final.shift(0.3*DOWN+4*LEFT)
+ self.play(ReplacementTransform(expansion_geo,expansion_geo_final))
+ self.wait(1)
+
+ circle3=Circle(radius=1.5,color=GREEN)
+ circle3.shift(2.2*UP)
+ expansion_taylor_coeff=[0]*3
+ variables_taylor=[0]*3
+ arrow1_3=Line(start=0.7*UP,end=DOWN*0.3)
+ expansion_taylor_coeff=[TextMobject("${ a }_{ 0 }$"),TextMobject("${ a }_{ 1 }$"),TextMobject("${ a }_{ 2 }$")]
+ for i in range(0,3):
+ expansion_taylor_coeff[i].set_color(GOLD_A)
+ variables_taylor=[TextMobject("+"),TextMobject("${ x }$+"),TextMobject("${ x }^{ 2 }$")]
+ expansion_taylor_coeff[0].shift(2.2*UP+1.6*LEFT)
+ for i in range(0,3):
+ variables_taylor[i].next_to(expansion_taylor_coeff[i],buff=0.1)
+ if i!=2:
+ expansion_taylor_coeff[i+1].next_to(variables_taylor[i],buff=0.1)
+ dots=TextMobject("...")
+ dots.next_to(variables_taylor[2])
+ expansion_taylor=VGroup(expansion_taylor_coeff[0],expansion_taylor_coeff[1],expansion_taylor_coeff[2],variables_taylor[0],variables_taylor[1],variables_taylor[2],dots)
+ expansion_taylor.scale(0.7)
+
+ self.play(ApplyMethod(circle3.shift,4*DOWN),ApplyMethod(expansion_taylor.shift,4*DOWN))
+ self.add(arrow1_3)
+ self.wait(1)
+
+ differentials=[TextMobject("$f(0)$"),TextMobject("${ f'\left( 0 \\right) }$"),TextMobject("$\\frac { f''\left( 0 \\right) }{ 2! }$")]
+ for i in range(0,3):
+ differentials[i].set_color(GOLD_A)
+ differentials[0].shift(1.8*DOWN+1.15*LEFT)
+ differentials[1].shift(1.8*DOWN+0.45*LEFT)
+ differentials[2].shift(1.8*DOWN+0.45*RIGHT)
+ differentials[0].scale(0.35)
+ differentials[1].scale(0.35)
+ differentials[2].scale(0.35)
+ self.play(ReplacementTransform(expansion_taylor_coeff[0],differentials[0]),ReplacementTransform(expansion_taylor_coeff[1],differentials[1]),ReplacementTransform(expansion_taylor_coeff[2],differentials[2]))
+ self.wait(2)
+ expansion_taylor_final=VGroup(differentials[0],differentials[1],differentials[2],variables_taylor[0],variables_taylor[1],variables_taylor[2],dots)
+
+ self.play(FadeOut(expansion_geo_final),FadeOut(expansion_taylor_final))
+ geoText=TextMobject("Geometric Series")
+ geoText.scale(0.7)
+ geoText.shift(4*LEFT+0.3*DOWN)
+ taylorText=TextMobject("Taylor Series")
+ taylorText.scale(0.7)
+ taylorText.shift(1.8*DOWN)
+ self.play(FadeIn(geoText),FadeIn(taylorText))
+ self.wait(1)
+
+ soOntext=TextMobject("So on..!")
+ soOntext.shift(4*RIGHT)
+ soOntext.scale(0.8)
+ self.play(FadeIn(soOntext))
+ self.wait(2)