from manimlib.imports import * class parametricCircle(ThreeDScene, GraphScene): def construct(self): self.x_min = -5 self.y_min = -5 self.graph_origin = ORIGIN self.x_max = 5 self.y_max = 5 self.x_axis_label = "" self.y_axis_label = "" self.x_axis_width = 10 self.y_axis_height = 10 axes = [] self.setup_axes() self.axes.scale(0.5).shift(3*LEFT) axes.append(self.axes) self.setup_axes() self.axes.scale(0.3).shift(3*RIGHT + 2*UP) axes.append(self.axes) self.setup_axes() self.axes.scale(0.3).shift(3*RIGHT + 2*DOWN) axes.append(self.axes) axes = VGroup(*axes) t_value = ValueTracker(-3.14) t_tex = DecimalNumber(t_value.get_value()).add_updater(lambda v: v.set_value(t_value.get_value())) t_label = TexMobject("t = ") group = VGroup(t_tex,t_label).shift(3*DOWN) t_label.next_to(t_tex,LEFT, buff=0.2,aligned_edge=t_label.get_bottom()) asint_text = TextMobject(r'$x = a\sin{t}$').scale(0.7).shift(4*RIGHT + 3*UP) xlabel1 = TextMobject(r'$x$').shift(3.3*RIGHT + 3.7*UP).scale(0.7) tlabel1 = TextMobject(r'$t$').shift(4.8*RIGHT + 2*UP).scale(0.7) up_text = VGroup(*[asint_text, xlabel1, tlabel1]) asint = ParametricFunction( lambda t: np.array([ t, np.sin(t), 0 ]), t_min = -np.pi, t_max = np.pi, color = GREEN_E ).shift(3*RIGHT + 2*UP).scale(0.4) acost_text = TextMobject(r'$y = a\cos{t}$').scale(0.7).shift(4*RIGHT + DOWN) ylabel1 = TextMobject(r'$y$').shift(3.3*RIGHT+0.3*DOWN).scale(0.7) tlabel2 = TextMobject(r'$t$').shift(4.8*RIGHT + 2*DOWN).scale(0.7) down_text = VGroup(*[acost_text, ylabel1, tlabel2]) acost = ParametricFunction( lambda t: np.array([ t, np.cos(t), 0 ]), t_min = -np.pi, t_max = np.pi, color = BLUE ).shift(3*RIGHT + 2*DOWN).scale(0.4) up_dot = Dot(color = RED) down_dot = Dot(color = RED) circle_dot = Dot(color = RED) ylabel2 = TextMobject(r'$y$').scale(0.7).shift(3*UP + 3*LEFT) xlabel2 = TextMobject(r'$x$').scale(0.7) ellipse_text = TextMobject(r'$x = a\sin{t}$ \\ $y = a\cos{t}$').scale(0.7).shift(2*UP + 1.3*LEFT) main_text = VGroup(*[xlabel2, ylabel2, ellipse_text]) circle = ParametricFunction( lambda t: np.array([ np.cos(t), np.sin(t), 0 ]), t_min = -np.pi, t_max = np.pi, color = WHITE ).shift(3*LEFT) self.play(FadeIn(axes), FadeIn(asint), FadeIn(acost), FadeIn(circle), FadeIn(up_text), FadeIn(down_text), FadeIn(main_text), FadeIn(group)) self.wait(1) self.play(MoveAlongPath(up_dot, asint, run_time = 7), MoveAlongPath(down_dot, acost, run_time = 7), MoveAlongPath(circle_dot, circle, run_time = 7), t_value.set_value,3.14, rate_func=linear, run_time=7) self.wait(1) self.play(FadeOut(VGroup(*[axes, asint, acost, circle, up_text, down_text, main_text, up_dot, down_dot, circle_dot, group]))) self.wait(1)