Height= GPE/gravitational constant(mass)
GPE = mgh (mass x gravity x height). You can use 9.8 for gravity.
A simple angle of elevation problem...You want to find out the height of a tree. You measure the distance from you to the base and find that it is 100 feet. You measure the angle of elevation of the top and find that it is 30 degrees. You are six feet tall. How tall is the tree?Answer: The tree is 64 feet tall. Its height is tangent 30 times 100 + 6.
the slant height is always 2 units bigger then the height
To find the area of a parallelogram, multiply the length of the base by the height. The height should be perpendicular to the base.
1/2*base*height = area height = (2*area)/base
GPE = Mass * Height so Mass = GPE/Height
GPE=weight x height
Weight*Height Mass*9.8*Height \
It is 0 because the height would be zero I think
The higher off the ground something is, the greater its GPE is. GPE=mass x gravitatonal constant x height.
It does not. GPE depends only on the height of the object over some reference level, and the gravitational attraction.It does not. GPE depends only on the height of the object over some reference level, and the gravitational attraction.It does not. GPE depends only on the height of the object over some reference level, and the gravitational attraction.It does not. GPE depends only on the height of the object over some reference level, and the gravitational attraction.
GPE = mgh (mass x gravity x height). You can use 9.8 for gravity.
The gravitational potential energy is equal to: GPE = mass x gravity x height Or equivalently: GPE = weight x height
GPE = mass * acceleration of gravity * height. Original GPE : m*g*h Joules if you double the height, you get m*g*2h Joules, or 2*m*g*h -- twice the GPE.
It converts gravitational potential energy (GPE) at the height of the swing to kinetic energy. This is then converted back to GPE. The process continues.
The horizontal distance makes no significant difference.
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