energy reflects back or remains into the source.
its potential energy is 1/2kx^2 -k is its spring constant and x its displacement - the higher the stretch, the more the energy which goes as the square of the stretch, x
The elastic potential energy (EEp) of the spring with displacement x from its original length is given by: EEp = 1/2 kx2 (can be proved using integration) where k is the spring constant of the spring. So, if the displacement of the mass is doubled, the elastic EEp stored will increase by 22, that is by 4.
The missing energy goes to heat the surface areas of the table and the sliding objectthat rub together.
after it is done with the pulmonary circulation it goes directly to the lungs
A kicked football has, of course, kinetic energy. As it moves up, its vertical movement provides potential energy. Until it goes up to its maximum displacement from the ground, its potential energy is at 100% while the kinetic energy doesn't exist. As the football moves back down, its potential energy is decreasing, but kinetic energy is increasing because there's movement in the football
It is a direct relationship. When temperature goes up, energy goes up. When temperature goes does, energy goes down.
Male body language can be a Powerful Attraction Tool to get women if done correctly... It goes right from movements, body displacement, voice, face, shoulder, etc.
No. Its the LAW! Not a suggestion! The waste energy just goes somewhere else, like heat radiation of thermal conduction.
The energy that is used with your vision is chemical and kentic energy. :)
It is a direct relationship. When temperature goes up, energy goes up. When temperature goes does, energy goes down.
Sure. As one car goes around a circle and as it completes one full rotation, then distance covered by the car is the circumference of the circle. But the displacement is Zero. So distance but no displacement.
Displacement power and mileage are not directly related but ... and there is always a But You need displacement (CC) to make power, the problem is that some engines use the displacement better than others Displacement gets bigger and fuel usage goes up, but again some engines use the displacement better than others