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Kinetic Energy, or KE, is the energy objects have when in basic motion. If you are talking about the movement of particles in the object, creating heat, it is IE, Internal Energy. and FYI, Potential Energy, PE, is the energy an object has in accordance to its position.
An object has more kinetic energy when the temperature gets hotter. The particle's speed increase and begin to flow more rapidly. An object has more kinetic energy when the temperature gets hotter. The particle's speed increase and begin to flow more rapidly.
In mechanics, a study within physics, when we talk about the energy of motion, we are talking about kinetic energy. When we look at an object's kinetic energy, it's energy of motion, we see it is related to how much mass the object has, and how fast it is moving. Naturally, there is an expression or formula for this: Ek = 1/2 mv2 The kinetic energy (Ek) equals one half the mass (m) times the square of the velocity (v).
No change in kinetic energy and a decrease in potential energy. The potential energy becomes more negative as the bonds are formed during solidification (potential energy is zero when the object is a gas and reduces from that point as the state changes).
The best summary of kinetic energy is energy of motion. Kinetic energy is only present where there is motion in an object. Friction generates more kinetic energy.
Kinetic Energy, or KE, is the energy objects have when in basic motion. If you are talking about the movement of particles in the object, creating heat, it is IE, Internal Energy. and FYI, Potential Energy, PE, is the energy an object has in accordance to its position.
An object has more kinetic energy when the temperature gets hotter. The particle's speed increase and begin to flow more rapidly. An object has more kinetic energy when the temperature gets hotter. The particle's speed increase and begin to flow more rapidly.
Temperature is the average Kinetic energy of molecules in an object. A hot object has more kinetic energy and a cold object has less kinetic energy.
The more an objects kinetic energy increases the more it's temperature increases. An object that is traveling at 30 miles per hour will have a higher temperature than an object traveling at 10 miles per hour. This is in part due to friction. Mostly however, it is due to the fact that kinetic energy excites atoms in the object raising the objects temperature. You could put it like this: temperature = energy + atoms. Hope this helps.
Faster particles have more energy than slower particles, yes.
Im so confused
The more dense an object is the more kinetic engery it has
In mechanics, a study within physics, when we talk about the energy of motion, we are talking about kinetic energy. When we look at an object's kinetic energy, it's energy of motion, we see it is related to how much mass the object has, and how fast it is moving. Naturally, there is an expression or formula for this: Ek = 1/2 mv2 The kinetic energy (Ek) equals one half the mass (m) times the square of the velocity (v).
Heat, sound and more kinetic energy as things are moved by the impact of the object.
If temperature is higher, kinetic energy is more
Faster that the particles move, the more kinetic energy that they have. The temperature expands by known amounts for a given change in temperature.
No change in kinetic energy and a decrease in potential energy. The potential energy becomes more negative as the bonds are formed during solidification (potential energy is zero when the object is a gas and reduces from that point as the state changes).