Potential Energy is energy that could come from something that if it were to fall (say, from gravity) the kinetic energy gained from that fall would be equal to that. Other forms could be elastic potential energy, chemical potential energy, electrical potential energy (eventually becomes voltage), and etc.
Kinetic energy is of an object that is moving (because I assume we're talking of Newtonain motion).
it would be potential,
but if you eat food, the energy goes through biological process and becomes fat and carbs, which is no longer an energy
Energy. More specifically, mechanical energy.
Potential energy is found when the lava(magma) is hardened. Kinetic energy is found when the volcano is erupting.
yes
Kinetic energy is the energy created by the motion of an object. In classical mechanics, kinetic energy is calculated using the equation: KE = 1/2 * m * v^2 (where KE = kinetic energy, m = mass, v = velocity) Potential energy is energy that an object has simply due to its position and configuration. This energy can be caused by where it is in a force field. The most common potential energy is gravitational potential energy. There is also electrical, magnetic, and elastic potential energy. In classical mechanics, gravitational potential energy created by the Earth is calculated using: PE = mgh (where PE = potential energy, m = mass, g = acceleration due to gravity, h = height of the object)
Kinetic energy is defined in terms of motion, so anything in motion is exhibiting kinetic energy.
Kinetic energy.
Potential energy is found when the lava(magma) is hardened. Kinetic energy is found when the volcano is erupting.
thermal and gravitational and gravitational potential and kinetic and poential and sound and mechanical energy is found in a saxaphone.
yes
A ball at rest contains only potential energy. A ball in motion contains almost all kinetic energy. But it gets tricky here. A free falling ball that has not yet reached terminal velocity has no potential energy. That energy is being given up to kinetic energy. Once the ball reaches terminal velocity in Earth's atmosphere, air resistance holds back further conversion of potential energy to kinetic.
One is a weight on an elastic string, bobbing up and down. Each down/up involves potential-kinetic-elastic-kinetic-potential conversions. A transfer would also include placing a heavy weight on a spring-loaded platform. The reduced gravitational potential of the weight is stored as compression energy in the spring, which will rebound if the weight is removed.
When potential energy and kinetic energy are combined it is called mechanical energy. Mechanical energy is the energy that is possessed by an object due to its motion or due to its position. Mechanical energy can be either kinetic energy (energy of motion) or potential energy (stored energy of position).
Kinetic energy depends on movement; potential energy only on the position (when there are forces that act on an object).
energy acquird by the objects upon which work is done is known as mechanical energy Mechanical energy is found by adding kinetic energy and potential energy.
Heat is defined as the sum total of the average kinetic energy of the molecules of a body. From the above sentence kinetic energy is one of the two forms of mechanical energy and theother is potential energy. Kinetic energy is enery found in a body by the virtue of its motion. Therefore, if kinetic energy is used to measure heat, heat is mechanical energy.
When you drop a book the original potential energy is converted into the kinetic energy, When the book hits bottom the kinetic energy is absorbed by the surface underneath and some is converted to sound energy. This maintains the law of conservation of energy. the total amount of energy in this universe is constant and remains constant. Energy can neither be created nor destroyed it can just change its form from one form to another.
Kinetic energy is the energy created by the motion of an object. In classical mechanics, kinetic energy is calculated using the equation: KE = 1/2 * m * v^2 (where KE = kinetic energy, m = mass, v = velocity) Potential energy is energy that an object has simply due to its position and configuration. This energy can be caused by where it is in a force field. The most common potential energy is gravitational potential energy. There is also electrical, magnetic, and elastic potential energy. In classical mechanics, gravitational potential energy created by the Earth is calculated using: PE = mgh (where PE = potential energy, m = mass, g = acceleration due to gravity, h = height of the object)
Mechanical energy is the combination of a system's total kinetic and potential energy. Kinetic energy is the energy of movement, is possessed by any objects in motion, and is given by the equation K = (1/2)mv^2. Potential energy has several types, including potential energy due to height (gravitational potential energy) and due to the tension inherent to a spring (elastic potential energy). Ug = mgh, where g is the acceleration due to gravity. Ue = (1/2)kx^2, where k is the spring constant and x is the distance the spring is stretched in meters. Although the universe follows the Law of Conservation of Energy, mechanical energy is not necessarily conserved. This means that mechanical energy can transform into other types of energy and vice versa. For example, when a machine operates, some mechanical energy is lost to heat energy. The ratio of mechanical energy conserved to the energy lost to thermal energy is known as efficiency, and no machines have 100% efficiency (no heat loss). On the other hand, non-mechanical energy such as electrical energy can convert to kinetic energy in situations when the electric potential of a capacitor powers the movement of a particle through the capacitor.