Kinetic energy is the energy in the movement.Potential energy is stored energy, ready to be used.K.E-motion energyP.E-energy stored during displacement of springs that tend to restore to original position of springKinetic energy is the energy found in every object in motion .Gravitational Potential Energy is the enegry stored in an object because of its height. For example, the energy that water has before it goes over a waterfall. Chemical potential energy is the energy that a substance can release by undergoing a chemical reaction, for example gasoline which releases energy when it is burned. Mechanical potential energy would be the kind stored in a compressed spring. Radioactive materials such as uranium have nuclear potential energy.Kinetic energy is the energy of motion.. while something is moving.. and potential energy is the energy being stored up for the object TO move.A ball rolling has kinetic energy... when you pull back a spoon to throw food at someone, when you pull back and hold it there, it has potential energy (potential to be kinetic, that is)Potential energy is the capacity for doing work that a body possesses because of itsposition or condition. While kinetic energy is energy a body possesses because it is in motion.kinetic energy is moving energy or energy used in preforming an action.potiental energy is sitting energy or energy that is being saved up.potential- when energy is stored.kinetic- when energy is movingPotential energy is stored energy, when building up to it's highest point the energy is released as kinetic energy. For example potential energy is the energy gathered when moving slowly up an amusement park ride, when you reach the top the potential energy reaches it's limit and is realeased as kinetic energy when you rocket downwards.
what can be the constant in the paper plane experiment
Ramps are another example of inclined plane.
Yes a slide could be considered an inclined plane because to be an inclined plane, something has to be at an angle, usually it's going up.
Coordinate Plane
No, when a plane is landing, it is losing potential energy as it descends closer to the ground. This potential energy is being converted into kinetic energy as the plane's speed increases.
A plane in the air posseses gravitational potential energy or stored energy. If the pilot shuts the engine off the plane releases that energy.
A plane taking off has kinetic energy, which is the energy of motion due to its speed. It also has potential energy in the form of gravitational potential energy as it gains altitude.
When an object is pushed up an inclined plane, the energy transformation that takes place is primarily from mechanical energy (kinetic and potential) to gravitational potential energy. The work done against gravity causes an increase in the object's potential energy as it is raised to a higher position on the inclined plane.
As objects roll down an inclined plane, potential energy is converted into kinetic energy. As the object loses height (potential energy), it gains speed and energy of motion (kinetic energy). The sum of potential and kinetic energy remains constant, in accordance with the law of conservation of energy.
Potential energy is converted to kinetic energy when skydiving. As the skydiver jumps from the plane, they have a high potential energy due to their height above the ground. This potential energy is then converted into kinetic energy as the skydiver accelerates towards the ground.
When an object is pushed up an inclined plane, the potential energy of the object is increased while its kinetic energy decreases. The mechanical energy is transformed from kinetic energy to potential energy as the object gains height.
The rubber band stores potential energy when it is twisted. As it unwinds, this potential energy is converted into kinetic energy that makes the propeller turn and allows the plane to fly.
When a plane is landing on the runway, it primarily has kinetic energy. As the aircraft descends, its potential energy decreases but is converted into kinetic energy as it gains speed. The kinetic energy is then used for braking and stopping the plane on the runway.
When the nose drops slightly, the plane's air speed typically increases because the change in pitch causes the aircraft to descend slightly. As the aircraft descends, it gains potential energy which is converted to kinetic energy, leading to an increase in air speed. Pilots use this technique to accelerate or descend quickly if needed.
The potential energy of any body of mass M kg raised by H meters above the earth's surface is M x H x G (G = 9.81 meters/sec/sec). It doesn't matter whether it moves up a plane or vertically, it is only the vertical rise that determines the potential energy. Of course on a plane the movement may create friction which means you have to put extra energy in, but this extra energy does not count towards the potential, it is probably lost in creating heat.
As the wooden block slides down the frictionless inclined plane, potential energy is converted to kinetic energy. At the bottom of the incline, some of the kinetic energy will be converted back into potential energy due to the change in height. Overall, the total mechanical energy of the block (sum of potential and kinetic energy) remains constant throughout the motion.