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The Co2 laser is one of the most powerful lasers, the energy difference between its lasing levels is 0.117ev , the frequency of radiation is. 3 * 10^13 MHz 3 * 10^13 1/s 3 * 10^18 pHz 3 * 10^18 Hz 

          The Co2 laser is one of the most powerful lasers, the energy difference between its lasing levels is 0.117ev , the frequency of radiation is.
3 * 10^13 MHz
3 * 10^13 1/s
3 * 10^18 pHz
3 * 10^18 Hz
The Co2 laser is one of the most powerful lasers, the energy difference between its lasing levels is 0.117ev , the frequency of radiation is. 3 * 10^13 MHz 3 * 10^13 1/s 3 * 10^18 pHz 3 * 10^18 Hz

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University Physics with Modern Physics
University Physics with Modern Physics
Hugh D. Young 14th Edition
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The CO2 laser is one of the most powerful lasers. The lasing level is 0.117 eV, and the energy difference between its frequency of radiation is 3 * 10^13 MHz, 3 * 10^13 1/s, 3 * 10^18 pHz, and 3 * 10^18 Hz.
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Transcript

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00:01 Hi, here in this given problem, energy difference between the lasing levels that is given as 0 .117 electron volt or we can say this is 0 .117 multiplied by 1 .6 multiplied by 10 -1 minus 19 joules and that will be equal to the energy of a photon which is given by an expression h new new is the frequency of that radiation so radiation frequency that will be given by new is equal to delta e by h which is plank's constant so this is 0 .117 multiplied by 1 .6 multiplied by 10 dash 4 minus 19 divided by planx constant which is 6 .62 multiplied by 10 dash for minus 34 and that will be per second or 1 by second so it is calculated to be equal to 2 .8 to multiplied by 10 dash for 13 second inverse or approximately we can say this is 3 multiplied by 10 to 13 second worse.
01:52 So this is the answer for the given problem here which is the option...
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