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the kinetic energy of a particle depends on the movement of each particle;that is the mass of the particle and the velocity of each particle.the particles of each matter or substance has a different heat resistance. when the temperature exceeds the resistance of the particles the movement of the particles would increase drastically.therefore making the velocity more and the mass lesser............. KE=1/2*m*v*v so when the temperature increases the mass is reduced and the velocity increases.
Frequency and wavelength have an inverse ratio relationship. When one doubles, the other is cut in half. When one is multiplied by 10, the other is divided by 10. The exact relationship is: wavelength = wave velocity/frequency.
Its velocity is reduced as a result of friction and drag.
the velocity of a car is be reduced when sand is loaded onto it owning to the fact that there is increase in mass of the car
For a single photon, the energy is equal to the frequency, multiplied by the reduced Plank constant. Since the frequency is equal to the speed of the wave divided by the wavelength, for the wavelength this becomes: energy = (reduced Planck constant) x (speed of light) / wavelength. Note that this is for a single photon only; it says nothing about the light from a flashlight, some other lamp, the Sun, etc., which consists of lots of photons.
the kinetic energy of a particle depends on the movement of each particle;that is the mass of the particle and the velocity of each particle.the particles of each matter or substance has a different heat resistance. when the temperature exceeds the resistance of the particles the movement of the particles would increase drastically.therefore making the velocity more and the mass lesser............. KE=1/2*m*v*v so when the temperature increases the mass is reduced and the velocity increases.
Virgil A Sandborn has written: 'Particle dynamics associated with the spacelab environment' -- subject(s): Matter, Effect of reduced gravity on
Originally, CD lasers with a wavelength of 780 nm were used, in the infrared.For DVDs, the wavelength was reduced to 650 nm (red color), and the wavelengthfor Blu-ray Disc was reduced to 405 nm (violet color).
Frequency and wavelength have an inverse ratio relationship. When one doubles, the other is cut in half. When one is multiplied by 10, the other is divided by 10. The exact relationship is: wavelength = wave velocity/frequency.
it doubles
The assumption of the previous answer is wrong. By passing them through the correct medium, the velocity at which protons travel can be reduced. This follows the theory of relativity, which only sets a maximum value for light speed, not a minimum. The equations: E=hv [E-energy [J] | h-Planck's constant [6.6260755 x 10¯34 Joule second] | v-frequency [Hz, sec-1]] and λν=c [λ-wavelength [m] | ν-frequency [Hz, sec-1] | c-speed of light (photon) [m/s]] still hold true however. You can re-arrange the second equation such that λ=c/v . From this equation you can see that the relationship of wavelength and photon velocity are directly proportional. That is to say as the wavelength increases, so too does it's velocity - so long as the frequency of the sinusoidal wave stays constant.
You can see how the frequency of a wave changes as its wavelength changes by using the formula Velocity= wavelength x frequencyIf for example we are talking about the speed of light (Which does change) and the wavelength is reduced, then the frequency has to increase in order to balance out to the speed of light.Another way to view it is like this:The frequency of a wave changes with the wavelength by what happens to the wavelength. For instance, if the wavelength is doubled, the frequency is halved, and vise versa.
The average velocity over an time interval is the average of the instantaneous velocities for all instants over that period. Conversely, as the time interval is reduced, the average velocity comes closer and closer to the instantaneous velocity.
Its velocity is reduced as a result of friction and drag.
For a single photon, the energy is equal to the frequency, multiplied by the reduced Plank constant. Since the frequency is equal to the speed of the wave divided by the wavelength, for the wavelength this becomes: energy = (reduced Planck constant) x (speed of light) / wavelength. Note that this is for a single photon only; it says nothing about the light from a flashlight, some other lamp, the Sun, etc., which consists of lots of photons.
the velocity of a car is be reduced when sand is loaded onto it owning to the fact that there is increase in mass of the car
The product of (frequency) times (wavelength) is always the same number ... it's the speed of the wave. So if the frequency is changed by some percentage, the wavelength changes by the same percentage in the other direction, in order to keep their product the same as it was.