P.E.+K.E.= Total Energy = Constant.
If you ignore heat, etc.
When you lift an object, the energy transferred to the object is called gravitational potential energy.
Precisely because the heat energy that was added was used up elsewhere. Temperature is a kind of kinetic energy; a change of phase (like, from solid to liquid) is a kind of potential energy.Precisely because the heat energy that was added was used up elsewhere. Temperature is a kind of kinetic energy; a change of phase (like, from solid to liquid) is a kind of potential energy.Precisely because the heat energy that was added was used up elsewhere. Temperature is a kind of kinetic energy; a change of phase (like, from solid to liquid) is a kind of potential energy.Precisely because the heat energy that was added was used up elsewhere. Temperature is a kind of kinetic energy; a change of phase (like, from solid to liquid) is a kind of potential energy.
Seriously -.-' First of all When You throw The Basketball it is going up^ Which is Kinetic energy when is comes down and STOPS it is Potential energy. Oh And this question is in the 6th grade science textbook! The orange textbook....so yeah. BYe
All things are related through a single body of energy; the energy within the system that we call "the universe". Everything is comprised of energy, and energy can neither be created or destroyed. The energy within the universe cannot be added to or subtracted from, but it can transform within the system (e.g., potential energy to kinetic energy, matter to photons, chemical energy to kinetic energy, etc.)
increase kinetic energy.
When potential energy and kinetic energy are added it creates total energy or Quaternion energy. Energy comes in two forms potential or real energy and vector or "kinetic " energy. Kinetic energy is rightfully vector energy and usually involves motion or velocity. However, torque 'fxr' is vector energy not considered as kinetic energy.The bottom line is, there is real energy like real numbers called potential energy and there is vector energy like kinetic energy mcV, (momentum related energy).Gravitational energy is an example E= -GmM/r + mcV = -mu/r + mcVNewton ignored the kinetic energy of mcV in his gravitational theory. Quaternions are yet to be recognized in science and mathematics as the true numbers of Nature.
10-kj will be added to the Kinetic Energy. Remember the law of conservation of energy. E=PE+KE. and Efinal = Einitial.
When you lift an object, the energy transferred to the object is called gravitational potential energy.
Precisely because the heat energy that was added was used up elsewhere. Temperature is a kind of kinetic energy; a change of phase (like, from solid to liquid) is a kind of potential energy.Precisely because the heat energy that was added was used up elsewhere. Temperature is a kind of kinetic energy; a change of phase (like, from solid to liquid) is a kind of potential energy.Precisely because the heat energy that was added was used up elsewhere. Temperature is a kind of kinetic energy; a change of phase (like, from solid to liquid) is a kind of potential energy.Precisely because the heat energy that was added was used up elsewhere. Temperature is a kind of kinetic energy; a change of phase (like, from solid to liquid) is a kind of potential energy.
This is homework and if you look in your science book the answer is there. Look at your headings. You will find it.
Seriously -.-' First of all When You throw The Basketball it is going up^ Which is Kinetic energy when is comes down and STOPS it is Potential energy. Oh And this question is in the 6th grade science textbook! The orange textbook....so yeah. BYe
When the temperature of a material increase, thermal energy is added to the material. It also increases the kinetic and potential energy of the particles. When the temperature reach the boiling or melting point, the kinetic energy stays the same, but the thermal energy and the potential energy still keeps adding and increasing. And when ONLY the potential energy increase, the state of the material changes from one to another.
These would be the Linear Kinetic Energy due to the forward velocity of the car; The Rotational Kinetic Energy of the rotating wheels and the Thermal or Heat Energy due to the various frictional forces on the car.
It establishes the initial potential energy that gets converted to kinetic energy for the rest of the ride. Once the car summits that first hill, it doesn't get any more energy added to it - the energy just gets converted back and forth between kinetic energy and potential energy for the rest of the ride, while gradually being dissipated by friction.
It establishes the initial potential energy that gets converted to kinetic energy for the rest of the ride. Once the car summits that first hill, it doesn't get any more energy added to it - the energy just gets converted back and forth between kinetic energy and potential energy for the rest of the ride, while gradually being dissipated by friction.
Usually in the form of increased or decreased kinetic energy of the molecules and added or reduced inter-molecular potential energy. Which way it goes depends on the direction of change in state.
Usually in the form of increased or decreased kinetic energy of the molecules and added or reduced inter-molecular potential energy. Which way it goes depends on the direction of change in state.