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A sphere's height will always be the same as its diameter.
Volume = Pir2 X height Diameter = 2r Pi = 3.1416 Solve for diameter Volume/height = 3.1416(diameter/2)2 (square root of (Volume/height/3.1416)) X 2 = diameter of the cylinder base
Yes. Except that there will be some combinations of changes to diameter and height which will leave the volume unchanged.
what is the formula for a cylinder with a diameter of 75 ft and a height of 66ft
The result depends which of the two is the diameter, and which is the height. The formula is pi x radius2 x height, where radius is half the diameter.The result depends which of the two is the diameter, and which is the height. The formula is pi x radius2 x height, where radius is half the diameter.The result depends which of the two is the diameter, and which is the height. The formula is pi x radius2 x height, where radius is half the diameter.The result depends which of the two is the diameter, and which is the height. The formula is pi x radius2 x height, where radius is half the diameter.
Due to height and pressure
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Gravity, air resistance, the material of the ball, and the height from which it was dropped initially.
It does affect the diameter. At a high height the diameter gets bigger. At a low height the diameter is slower.
It all depends on the amount of kinetic energy the crater has when it hits the moon. The larger the height, and the more kinetic energy the crater has when it hits the moon the larger the diameter of the crater and the more deeper it is. Hope this helps!
150 meters
A sphere's height will always be the same as its diameter.
the higher something is the more potential energy it has. when you drop it that turns into kinetic energy & u gain more momentum. that creates a bigger impact on what the crater hits.
The higher the height the ball is dropped from, the higher the height it will bounce to.
In a crater, the slope of the side of the crater is simply the arc-tangent of the height difference divided by the horizontal distance.
The factors that affect the bounce of a dropped ball include...... the height from which it is dropped; the force applied to it, if any, when dropped; the acceleration of gravity, which is different depending upon what planet you're on ; the elasticity of the ball; the density of the atmosphere, which affects "air resistance"; and the rigidity and elasticity of the surface on which the ball bounces.
Top diameter at 1.75" and the height at 2.25"