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from manimlib.imports import *
class ParametricCurve(ThreeDScene):
CONFIG = {
"axes_config": {
"x_min": 0,
"x_max": 3,
"y_min": 0,
"y_max": 3,
"z_min": 0,
"z_max": 4,
"a":0 ,"b": 2, "c":0 , "d":2,
"axes_shift":2*IN+1.4*RIGHT+1.4*DOWN,
"x_axis_config": {
"tick_frequency": 1,
"include_tip": False,
},
"y_axis_config": {
"tick_frequency": 1,
"include_tip": False,
},
"z_axis_config": {
"tick_frequency": 1,
# "include_tip": False,
},
},
}
def construct(self):
self.setup_axes()
self.set_camera_orientation(
distance=25,
phi=60 * DEGREES,
theta=40 * DEGREES,
)
label=TextMobject("Helix",color=PURPLE).scale(1.6)
label.to_corner(UR,buff=2)
self.add_fixed_in_frame_mobjects(label)
helix=self.get_helix(
radius=1.5,
t_min= 0,
t_max= 4*PI,
color=PURPLE
)
parameter_label=TextMobject(
"Parametric equation: ",
color=TEAL
).next_to(label,DOWN,buff=.3
)
parametric_eqn=TextMobject(
"$x=\cos$ (","t",
r")\\$y=\sin $(","t",
r")\\$z$=","t"
).next_to(parameter_label,DOWN,buff=.1)
parametric_eqn.set_color_by_tex("t",RED)
self.parametric_eqn=parametric_eqn
parametriztion=VGroup(
parameter_label,
parametric_eqn
)
self.play(ShowCreation(helix),run_time=2)
self.begin_ambient_camera_rotation(.1)
self.wait(1)
self.add_fixed_in_frame_mobjects(parametriztion)
self.play(Write(parametriztion))
self.wait(1)
self.stop_ambient_camera_rotation()
self.move_camera(
distance=20,
phi=85 * DEGREES,
# theta=-90 * DEGREES,
run_time=3
)
scale_axes=VGroup(self.axes,helix).scale(1.2)
self.show_the_parameter()
self.wait(2)
def get_helix(self,radius=1, **kwargs):
config = {
"t_min": 0,
"t_max": 2*PI,
}
config.update(kwargs)
helix= ParametricFunction(
lambda t : self.axes.c2p(
radius*np.cos(t),
radius*np.sin(t),
t/4
),
**config
)
self.helix=helix
return helix
def show_the_parameter(self):
t_tracker = ValueTracker(0)
t=t_tracker.get_value
t_label = TexMobject(
"t = ",color=RED
).next_to(self.parametric_eqn,DL,buff=.85)
t_text = always_redraw(
lambda: DecimalNumber(
t(),
color=GOLD,
).next_to(t_label, RIGHT, MED_SMALL_BUFF)
)
t_text.suspend_updating()
dot = Sphere(
radius= 1.5*DEFAULT_DOT_RADIUS,
stroke_width= 1,
fill_opacity= 1.0,
)
dot.set_color(GOLD)
dot.add_updater(lambda v: v.move_to(
self.helix.get_point_from_function(PI*t())
))
pi = TexMobject(
"\\pi ",
color=GOLD,
).next_to(t_text,RIGHT,buff=-.3)
group = VGroup(t_text,t_label,pi).scale(1.5)
self.wait(1)
self.add_fixed_in_frame_mobjects(group)
t_text.resume_updating()
self.play(FadeIn(group))
self.add(dot)
self.play(
t_tracker.set_value,2,
rate_func=linear,
run_time=5
)
#--------------------------------------------------------
#customize 3D axes
def get_three_d_axes(self, include_labels=True, include_numbers=False, **kwargs):
config = dict(self.axes_config)
config.update(kwargs)
axes = ThreeDAxes(**config)
axes.set_stroke(width=1.5)
if include_numbers:
self.add_axes_numbers(axes)
if include_labels:
self.add_axes_labels(axes)
# Adjust axis orientation
axes.x_axis.rotate(
90 * DEGREES, LEFT,
about_point=axes.c2p(0, 0, 0),
)
axes.y_axis.rotate(
90 * DEGREES, UP,
about_point=axes.c2p(0, 0, 0),
)
return axes
def setup_axes(self):
axes = self.get_three_d_axes(include_labels=True)
axes.scale(1)
# axes.center()
axes.shift(axes.axes_shift)
self.add(axes)
self.axes = axes
def add_axes_numbers(self, axes):
x_axis = axes.x_axis
y_axis = axes.y_axis
tex_vals_x = [
("1", axes.b),
]
tex_vals_y=[
("1", axes.d)
]
x_labels = VGroup()
y_labels = VGroup()
for tex, val in tex_vals_x:
label = TexMobject(tex)
label.scale(1)
label.next_to(x_axis.n2p(val), DOWN)
label.rotate(180 * DEGREES)
x_labels.add(label)
x_axis.add(x_labels)
x_axis.numbers = x_labels
for tex, val in tex_vals_y:
label = TexMobject(tex)
label.scale(1)
label.next_to(y_axis.n2p(val), LEFT)
label.rotate(90 * DEGREES)
y_labels.add(label)
y_axis.add(y_labels)
y_axis.numbers = y_labels
return axes
def add_axes_labels(self, axes):
x_label = TexMobject("x")
x_label.next_to(axes.x_axis.get_end(), RIGHT)
axes.x_axis.label = x_label
y_label = TextMobject("y")
y_label.rotate(90 * DEGREES, OUT)
y_label.next_to(axes.y_axis.get_end(), UP)
axes.y_axis.label = y_label
z_label = TextMobject("z")
z_label.rotate(90 * DEGREES, LEFT)
z_label.next_to(axes.z_axis.get_zenith(), LEFT)
axes.z_axis.label = z_label
for axis in axes:
axis.add(axis.label)
return axes
#uploaded by Somnath Pandit.FSF2020_Line_integrals
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