Mechanical energy comprises of both potential and kinetic energy. For example- Flying kite
Kinetic energy is energy related to movement. The formula is (1/2) mass times velocity squared. Potential energy is energy of position. The formula for gravitional potential energy is mgh (mass times gravitation times height).
Radiant Energy is not potential energy. They are two different things. Radiant energy is another word to say light energy. Potential energy is when an object not moving. To be specific, an object sitting on a shelf collects kinetic energy so when you knock it over, it falls because of gravity.
A potential energy is energy related to some (conservative) force. In this case, it is the electrical attraction between the atoms.A potential energy is energy related to some (conservative) force. In this case, it is the electrical attraction between the atoms.A potential energy is energy related to some (conservative) force. In this case, it is the electrical attraction between the atoms.A potential energy is energy related to some (conservative) force. In this case, it is the electrical attraction between the atoms.
the higher the potential energy, the more is the stability....
Kinetic energy is directly related to temperature, because temperature is the average kinetic energy of an object. Therefore, as the temperature of an object decreases, its kinetic energy decreases, as well.
Mechanical energy is a combination of potential and kinetic energy. It contains both types of energy.
they both do work
This is actually two questions. Energy relating to the motion of an object is kinetic energy. Energy related to its position is potential energy (as with a brick suspended at some distance above the ground). Release the brick and its potential energy is converted to kinetic energy. The two are complementary. As the brick accelerates toward the ground its kinetic energy increases; as the distance decreases during that acceleration, it's potential energy decreases.
No. Energy related to motion is called kinetic energy; energy related to position is called potential energy.No. Energy related to motion is called kinetic energy; energy related to position is called potential energy.No. Energy related to motion is called kinetic energy; energy related to position is called potential energy.No. Energy related to motion is called kinetic energy; energy related to position is called potential energy.
I would classify it as kinetic - not potential - because it is energy related to the movement of the photons.
chemical, radiant, thermal, mechanical (potential, kinetic), electrical, and im not sure about the last one, but i think its nuclear
The relationship is that mechanical energy is the sum of kinetic energy plus potential energy. Think of a brick sitting on the edge of a table. The brick has potential energy proportional to the mass of the brick and the height of the table: E = m g h where m = mass, g = gravitational acceleration, h = height If the brick falls off the edge, it will begin to accelerate at g, the rate of gravitational acceleration (9.8 m/s2). If v is the velocity of the brick, it has kinetic energy proportional to the quare of the velocity: E = (m v2)/2 Just before the brick finally hits the floor, all of its potential engergy has been converted to kinetic energy. During the moment of impact, that kinetic energy is converted to noise and vibration.
PE refers to potential energy - the energy of position KE refers to kinetic energy - the energy related to an object's speed.
Work is the change in kinetic energy and the change in potential energy. W=∆KE W=∆PE
related to or produced by a machine and/or gravitational and kinetic forces, two examples being rollup doors and fansrelated to or produced by a machine and/or gravitational and kinetic forces, two examples being rollup doors and fans
Motion is due to the buildup of energy. This is kinetic energy, everything that moves involves mechanical or kinetic energy.
Motion is due to the buildup of energy. This is kinetic energy, everything that moves involves mechanical or kinetic energy.