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The shape is called the teardrop shape!
In 2-dimensions, its parametric equation is
x = sin(t)*[sin(t/2)]^m
y = cos(t) for -pi < t < pi
The integer constant, m, changes the shape of the teardrop. At m = 0 the shape is a circle and as m increases the shape gets a pointier the top. m = 3 is about right.
The 3-d version is obtained by rotating this shape about the y axis.
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What geometric shape is a teardrop?
The shape is called the teardrop shape!In 2-dimensions, its parametric equation isx = sin(t)*sinm(t/2)y = cos(t) for -pi < t < piThe integer constant, m, changes the shape of the teardrop. At m = 0 the shape is a circle and as m increases the shape gets a pointier the top. I think 3 is about right.The 3-d version is obtained by rotating this shape about the y axis.The shape is called the teardrop shape!In 2-dimensions, its parametric equation isx = sin(t)*sinm(t/2)y = cos(t) for -pi < t < piThe integer constant, m, changes the shape of the teardrop. At m = 0 the shape is a circle and as m increases the shape gets a pointier the top. I think 3 is about right.The 3-d version is obtained by rotating this shape about the y axis.The shape is called the teardrop shape!In 2-dimensions, its parametric equation isx = sin(t)*sinm(t/2)y = cos(t) for -pi < t < piThe integer constant, m, changes the shape of the teardrop. At m = 0 the shape is a circle and as m increases the shape gets a pointier the top. I think 3 is about right.The 3-d version is obtained by rotating this shape about the y axis.The shape is called the teardrop shape!In 2-dimensions, its parametric equation isx = sin(t)*sinm(t/2)y = cos(t) for -pi < t < piThe integer constant, m, changes the shape of the teardrop. At m = 0 the shape is a circle and as m increases the shape gets a pointier the top. I think 3 is about right.The 3-d version is obtained by rotating this shape about the y axis.
What are the dimensions of a 1000 barrel tank?
You can't tell the dimensions from knowing the volume. The tank could be in the shape of a cube, a long skinny box, a sphere, a teardrop, a cylinder standing up with flat top and bottom, a cylinder lying down with round ends, etc., and every shape would have different dimensions for a volume of 1,000 barrels.
What is the metric unit of capacity of a teardrop?
The metric unit is a millilitre. The metric unit is a millilitre. The metric unit is a millilitre. The metric unit is a millilitre.
What is the shape of an acute?
the shape of an acute is V shape.
Is the shape of the egg is definite shape?
It has a definite shape
What shape is a dove?
Sort of a teardrop shape.
What shape has one corner?
A teardrop shape?
What shape has the least drag force?
The shape that typically has the least drag force is a teardrop shape. This shape is designed to minimize resistance and improve aerodynamics, making it ideal for reducing drag force.
Does shape of the antenna effect the magnetic field?
Yes for instance a dipole will have a doughnut shape field and a directional like a yagie will have a long teardrop shape field at the front end and a shorter teardrop field at the rear and some smaler fields sideways and a parabolic disc wil have a very long teardrop shape field
What is the teardrop shape formation that topaz make called?
The teardrop shape formation that topaz can exhibit is often referred to as a "pear" or "pear-shaped" cut. This shape features a rounded end that tapers to a point, resembling a teardrop. Pear-shaped topaz is popular in jewelry for its elegant silhouette and ability to enhance the stone's brilliance.
What shape is a hedgehog?
A domesticated hedgehog should have a teardrop shape when viewed from both the sides and top.
Can a teardrop tesselate?
In its conventional form, of a circular shape with tapering sides, NO.
What shape is an apple seed?
While each seed can vary, most apple seeds are in the shape of a teardrop.
What are the characteristics of a hedgehog?
Long legs, teardrop shape, beady eyes, dish ears, quills over back.
What geometric shape is a teardrop?
The shape is called the teardrop shape!In 2-dimensions, its parametric equation isx = sin(t)*sinm(t/2)y = cos(t) for -pi < t < piThe integer constant, m, changes the shape of the teardrop. At m = 0 the shape is a circle and as m increases the shape gets a pointier the top. I think 3 is about right.The 3-d version is obtained by rotating this shape about the y axis.The shape is called the teardrop shape!In 2-dimensions, its parametric equation isx = sin(t)*sinm(t/2)y = cos(t) for -pi < t < piThe integer constant, m, changes the shape of the teardrop. At m = 0 the shape is a circle and as m increases the shape gets a pointier the top. I think 3 is about right.The 3-d version is obtained by rotating this shape about the y axis.The shape is called the teardrop shape!In 2-dimensions, its parametric equation isx = sin(t)*sinm(t/2)y = cos(t) for -pi < t < piThe integer constant, m, changes the shape of the teardrop. At m = 0 the shape is a circle and as m increases the shape gets a pointier the top. I think 3 is about right.The 3-d version is obtained by rotating this shape about the y axis.The shape is called the teardrop shape!In 2-dimensions, its parametric equation isx = sin(t)*sinm(t/2)y = cos(t) for -pi < t < piThe integer constant, m, changes the shape of the teardrop. At m = 0 the shape is a circle and as m increases the shape gets a pointier the top. I think 3 is about right.The 3-d version is obtained by rotating this shape about the y axis.
What is the most aerodynamic shape possible for an object to minimize air resistance?
The most aerodynamic shape to minimize air resistance is a teardrop shape.
Why does the drop of dew of a plant have a teardrop shape?
The teardrop shape of dew on a plant is primarily due to surface tension. Water molecules are attracted to each other, creating a cohesive force that pulls them into a shape with minimal surface area. This shape is a spherical cap, which appears teardrop-like as it rests on the surface of the plant, balancing gravitational forces and surface tension. The curvature also helps to prevent the dew from easily rolling off the leaf.
