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It is direct, and the amount of stream erosion increases, kinetic energy increases also.
The kinetic energy of a molecule can in better words be known as the kinetic energy which makes up 68% of its state of matter.
As molecules move more quickly, the temperature increases . -apexx
Before you can do anything with kinetic energy, you must know the kinetic energy equation. The equation for kinetic energy KE=hv-hv0.
The thermal energy of a particle is directly proportional to its thermodynamic temperature (ie. its temperature in Kelvin).
The increased frequency increases the kinetic energy of the single electron ejected. Remember that the incident light releases a single electron when the threashod frequency is reached
When potiental increases, kinetic decreases and vice versa.
The photoelectric effect is based on two principles. 1. The intensity or brightness of the visible light (number of photons): The higher the intensity (larger number of photons) determines the number of electrons that are released from the surface material. 2. The frequency of visible light (wavelength): The higher the frequency a beam of light has when it strikes the surface determines the speed (kinetic energy) of the electrons that are ejected from the material. This is independent from light intensity. The higher the frequency of the light, the higher the energy of the electrons emitted, and thus, the higher the current of the circuit.
Both are mechanical force.
It ends up with energy
It ends up with energy
It is direct, and the amount of stream erosion increases, kinetic energy increases also.
The relationship between kinetic energy of molecules and their physical state is simple. The higher the kinetic energy the faster the molecules move. The fastest moving molecules are gaseous and the slowest moving molecules are solids.
The kinetic energy of a molecule can in better words be known as the kinetic energy which makes up 68% of its state of matter.
It ends up with energy
It ends up with energy
It ends up with energy