when a plate is balancing on a pole it has gravitational energy because its being pulled down to earth but the pole is in the way so it balances on the pole
Elastic Potential Energy
When a pole vaulter's pole reaches its maximum bend point all the energy if the system is being stored as potential energy in the pole. Etotal = PE + KE. At this point KE is 0 so PE=Etotal. However, as the pole straightens out again, the stored PE is released as KE.
Polarity means, what kind of pole, which would either be an electrical pole with a positive charge and a negative charge, or a magnetic pole with a south pole and a north pole.
When a firefighter slides down a pole the thermal energy comes from the friction between the two objects.
I believe the way you calculate this is to write up an equation for total energy when it is falling: on the one hand, there is the kinetic energy of the center of mass; on the other hand, the rotational energy (you need to know the moment of inertia of a pole for this). The total energy when it is falling must be a function of the speed (or rotational speed), and this total energy must be equal to the potential energy the pole had before it started to fall.
The North Pole sits over the North American Plate.
The South Pole is located on the polar plateau.
Yes
a magnetic Pole is a pole that energy goes through This answer is meaningless.
telephone pole. telephone is describing the pole. what kind of pole is it a telephone pole
Elastic Potential Energy
The forces and energy involved consist of speed/velocity, gravity and kinetic energy.
No, the sun's radiant energy is strongest at the Equator.
A fence pole holds a fence
When a pole vaulter's pole reaches its maximum bend point all the energy if the system is being stored as potential energy in the pole. Etotal = PE + KE. At this point KE is 0 so PE=Etotal. However, as the pole straightens out again, the stored PE is released as KE.
B
For the challenge "Balanced Diet" on Reality TV Island, fruit will be added to your pole that will cause it to tip over. To prevent this, move your cursor inside the balancing circle -- move the cursor toward the side AWAY from the side you are leaning toward. Keep your cursor there until the pole returns to near the center of the circle. Beware : the next change will usually tip the pole the other way, and you will have to move quickly to the opposite side. If the pole leaves the circle, it falls and you lose.