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authorG Sri Harsha2020-05-16 17:52:04 +0530
committerGitHub2020-05-16 17:52:04 +0530
commit1a8df8b5a08d1e2123fe51bf823ad196cb57dc33 (patch)
tree485d1622a720fb49b179066ac82981292f44423c
parentb33b7b9962b9186de770d37d4211330354cf14b3 (diff)
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-rw-r--r--FSF-2020/series-and-transformations/script3.py156
1 files changed, 156 insertions, 0 deletions
diff --git a/FSF-2020/series-and-transformations/script3.py b/FSF-2020/series-and-transformations/script3.py
new file mode 100644
index 0000000..f710f42
--- /dev/null
+++ b/FSF-2020/series-and-transformations/script3.py
@@ -0,0 +1,156 @@
+from manimlib.imports import*
+import math
+
+class intro(Scene):
+ def construct(self):
+ introText1=TextMobject("Let's analyse")
+ introText2=TextMobject("for")
+ function_main=TextMobject("$\sum { { (-1) }^{ n }{ x }^{ 2n } }$")
+ function_main.set_color(GREEN)
+ introText1.scale(1.2)
+ introText1.shift(2*UP)
+ introText2.scale(0.7)
+ introText2.shift(UP)
+ function_main.scale(2)
+ function_main.shift(DOWN)
+ function_expan=TextMobject("$1-{ x }^{ 2 }+{ x }^{ 4 }-{ x }^{ 6 }+{ x }^{ 8 }+..$")
+ function_expan.set_color(RED)
+ function_expan.scale(1.2)
+ function_expan.shift(2*UP)
+
+ self.play(Write(introText1))
+ self.play(FadeIn(introText2))
+ self.wait(0.5)
+ self.play(Write(function_main))
+ self.wait(1)
+
+ self.play(FadeOut(introText1),FadeOut(introText2))
+ self.play(ApplyMethod(function_main.shift,3*UP))
+ self.wait(0.5)
+ self.play(ReplacementTransform(function_main,function_expan))
+ self.wait(1)
+ self.play(ApplyMethod(function_expan.scale,0.5))
+ function_expan.to_edge(UP+RIGHT)
+ self.play(ReplacementTransform(function_expan,function_expan))
+ self.wait(1)
+
+
+class graphScene(GraphScene):
+ CONFIG = {
+ "x_min": -8,
+ "x_max": 8,
+ "y_min": -8,
+ "y_max": 8,
+ "graph_origin": ORIGIN,
+ "function_color": RED,
+ "axes_color": GREEN,
+ "x_axis_label": "$x$",
+ "y_axis_label": "$y$",
+ "exclude_zero_label": True,
+ "x_labeled_nums": range(-1, 2, 1),
+ "y_labeled_nums": range(0,2,1)
+ }
+
+ def construct(self):
+
+ x_each_unit = self.x_axis_width / (self.x_max - self.x_min)
+ y_each_unit = self.y_axis_height / (self.y_max - self.y_min)
+
+ function_expan=TextMobject("$1-{ x }^{ 2 }+{ x }^{ 4 }-{ x }^{ 6 }+{ x }^{ 8 }+..$")
+ function_expan.set_color(RED)
+ function_expan.scale(0.6)
+ function_expan.to_edge(UP+RIGHT)
+ self.add(function_expan)
+
+ self.setup_axes(animate=True)
+
+ eqText=[TextMobject("$1$"),TextMobject("$1-{ x }^{ 2 }$"),TextMobject("$1-{ x }^{ 2 }+{ x }^{ 4 }$"),TextMobject("$1-{ x }^{ 2 }+{ x }^{ 4 }-{ x }^{ 6 }$")]
+ for i in range(0,len(eqText)):
+ eqText[i].scale(0.6)
+ eqText[i].set_color(BLUE)
+ eqText[i].shift(ORIGIN+UP*2*y_each_unit+RIGHT*3.3*x_each_unit)
+ eqTextTerm=TextMobject("And so on..!")
+ eqTextTerm.set_color(BLUE)
+ eqTextTerm.scale(0.6)
+ eqTextTerm.shift(ORIGIN+UP*2*y_each_unit+3*RIGHT*x_each_unit)
+ equation1 = self.get_graph(lambda x : 1,color = RED,x_min = -8,x_max=8)
+ equation2 = self.get_graph(lambda x : 1-math.pow(x,2),color = RED,x_min = -1.7,x_max=1.7)
+ equation3 = self.get_graph(lambda x : 1-math.pow(x,2)+math.pow(x,4),color = RED,x_min = -1.6,x_max=1.6)
+ equation4 = self.get_graph(lambda x : 1-math.pow(x,2)+math.pow(x,4)-math.pow(x,6),color = RED,x_min = -1.45,x_max=1.45)
+ equation5 = self.get_graph(lambda x : 1-math.pow(x,2)+math.pow(x,4)-math.pow(x,6)+math.pow(x,8),color = RED,x_min = -1.35,x_max=1.35)
+ equation6 = self.get_graph(lambda x : 1-math.pow(x,2)+math.pow(x,4)-math.pow(x,6)+math.pow(x,8)-math.pow(x,10),color = RED,x_min = -1.3,x_max=1.3)
+ equation7 = self.get_graph(lambda x : 1-math.pow(x,2)+math.pow(x,4)-math.pow(x,6)+math.pow(x,8)-math.pow(x,10)+math.pow(x,12),color = RED,x_min = -1.25,x_max=1.25)
+ equation8 = self.get_graph(lambda x : 1-math.pow(x,2)+math.pow(x,4)-math.pow(x,6)+math.pow(x,8)-math.pow(x,10)+math.pow(x,12)-math.pow(x,14),color = RED,x_min = -1.2,x_max=1.2)
+ equation9 = self.get_graph(lambda x : 1-math.pow(x,2)+math.pow(x,4)-math.pow(x,6)+math.pow(x,8)-math.pow(x,10)+math.pow(x,12)-math.pow(x,14)+math.pow(x,16),color = RED,x_min = -1.15,x_max=1.15)
+ equation10 = self.get_graph(lambda x : 1-math.pow(x,2)+math.pow(x,4)-math.pow(x,6)+math.pow(x,8)-math.pow(x,10)+math.pow(x,12)-math.pow(x,14)+math.pow(x,16)-math.pow(x,18),color = RED,x_min = -1.15,x_max=1.15)
+
+ textBtwAnim1=TextMobject("Here the graph just","oscilates")
+ textBtwAnim1.set_color_by_tex_to_color_map({"oscilates":BLUE})
+ textBtwAnim2=TextMobject("after","the","point","(as we add higher order terms)")
+ textBtwAnim2.set_color_by_tex_to_color_map({"after":BLUE,"point":YELLOW})
+ textBtwAnim3=TextMobject("$x=1$")
+ textBtwAnim1.scale(0.4)
+ textBtwAnim2.scale(0.4)
+ textBtwAnim3.scale(1.2)
+ textBtwAnim1.shift(2.1*DOWN+4.3*RIGHT)
+ textBtwAnim2.shift(2.4*DOWN+4.1*RIGHT)
+ textBtwAnim3.shift(2.9*DOWN+4.3*RIGHT)
+
+ self.play(ShowCreation(equation1),run_time=0.8)
+ self.add(eqText[0])
+ self.wait(1)
+ self.play(ReplacementTransform(equation1,equation2),ReplacementTransform(eqText[0],eqText[1]))
+ self.wait(0.5)
+ self.play(ReplacementTransform(equation2,equation3),ReplacementTransform(eqText[1],eqText[2]))
+ self.wait(0.4)
+ self.play(ReplacementTransform(equation3,equation4),ReplacementTransform(eqText[2],eqText[3]))
+ self.wait(0.3)
+ self.play(FadeOut(eqText[3]))
+ self.play(FadeIn(eqTextTerm))
+ self.play(Write(textBtwAnim1),Write(textBtwAnim2))
+ self.play(FadeIn(textBtwAnim3))
+ self.play(ReplacementTransform(equation4,equation5))
+ self.wait(0.2)
+ self.play(ReplacementTransform(equation5,equation6))
+ self.wait(0.2)
+ self.play(ReplacementTransform(equation6,equation7))
+ self.wait(0.2)
+ self.play(ReplacementTransform(equation7,equation8))
+ self.wait(0.2)
+ self.play(ReplacementTransform(equation8,equation9))
+ self.wait(0.2)
+ self.play(ReplacementTransform(equation9,equation10))
+ self.wait(1)
+
+ self.play(FadeOut(textBtwAnim1),FadeOut(textBtwAnim2),FadeOut(textBtwAnim3),FadeOut(equation10),FadeOut(eqTextTerm))
+ self.wait(1)
+
+ convergeLine=Line(start=ORIGIN+x_each_unit*LEFT,end=ORIGIN+x_each_unit*RIGHT,color=WHITE)
+ divergeLineLeft=Line(start=ORIGIN+x_each_unit*LEFT,end=ORIGIN+x_each_unit*LEFT*8,color=RED)
+ divergeLineRight=Line(start=ORIGIN+x_each_unit*RIGHT,end=ORIGIN+x_each_unit*8*RIGHT,color=RED)
+ circle1=Circle(radius=0.01,color=PURPLE_E)
+ circle2=Circle(radius=0.01,color=PURPLE_E)
+ circle1.shift(ORIGIN+LEFT*x_each_unit)
+ circle2.shift(ORIGIN+RIGHT*x_each_unit)
+ convergeText=TextMobject("Converges")
+ divergeText1=TextMobject("Diverges")
+ divergeText2=TextMobject("Diverges")
+ convergeText.set_color(GREEN)
+ divergeText1.set_color(RED)
+ divergeText2.set_color(RED)
+ convergeText.scale(0.5)
+ divergeText1.scale(0.5)
+ divergeText2.scale(0.5)
+ convergeText.shift(1.6*UP)
+ divergeText1.shift(0.3*UP+1.5*LEFT)
+ divergeText2.shift(0.3*UP+1.5*RIGHT)
+ self.play(Write(divergeLineLeft),Write(divergeLineRight))
+ self.play(FadeIn(convergeLine))
+ self.wait(0.5)
+ self.play(FadeOut(self.axes))
+ self.play(Write(circle1),Write(circle2))
+ self.wait(0.5)
+ self.play(ApplyMethod(convergeLine.shift,1.3*UP),ApplyMethod(function_expan.shift,5*LEFT+DOWN))
+ self.play(FadeIn(convergeText),FadeIn(divergeText1),FadeIn(divergeText2))
+ self.wait(2)
+