continuous-wave laser emits a continuous beam of radiation, whereas a pulsed laser emits pulses of radiation. The peak power, Ppeak, of a pulse is defined as the energy delivered in a pulse divided by its duration.The average power, Paverage, is the total energy delivered by a large number of pulses divided by the duration of the time interval over which that total energy is measured. Suppose that a certain laser can generate radiation in 3.0 ns pulses, each of which delivers an energy of 0.10 J, at a pulse repetition frequency of 10 Hz. Calculate the peak power and the average power of this laser.

continuous-wave laser emits a continuous beam of radiation, whereas a pulsed laser emits pulses of radiation. The peak power, Ppeak, of a pulse is defined as the energy delivered in a pulse divided by its duration.The average power, Paverage, is the total energy delivered by a large number of pulses divided by the duration of the time interval over which that total energy is measured. Suppose that a certain laser can generate radiation in 3.0 ns pulses, each of which delivers an energy of 0.10 J, at a pulse repetition frequency of 10 Hz. Calculate the peak power and the average power of this laser.

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Question

continuous-wave laser emits a continuous beam of radiation, whereas a pulsed laser emits pulses of radiation. The peak power, P_peak, of a pulse is defined as the energy delivered in a pulse divided by its duration.The average power, P_average, is the total energy delivered by a large number of pulses divided by the duration of the time interval over which that total energy is measured. Suppose that a certain laser can generate radiation in 3.0 ns pulses, each of which delivers an energy of 0.10 J, at a pulse repetition frequency of 10 Hz. Calculate the peak power and the average power of this laser.

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