Respuesta :
The correct answer is (a).
Solar panels generate current using the principles of photoelectric emission, according to which, electrons are liberated from surfaces of certain substances when light of suitable frequency was allowed to fall on it. A photon of the incident radiation interacts with an electron of the panel and liberates it from the surface of the panel.
When the brightness of the light shining on the panel is increased, the intensity of the incident light increases. This means that the number of incident photons also increases. Since each photon has a probability of liberating one electron, as the number of incident photons increase, the number of liberated electrons also increases proportionally. Since photoelectric current is the rate of flow of photo electrons, the photo electric current increases with the increase in the intensity/ brightness of incident light.
If the frequency of light is increased, without increasing the brightness, the photoelectric current does not increase, since the number of incident photons remains the same. However, the liberated electrons exit the surface with greater kinetic energies. But since the number of electrons liberated remain the same, the photoelectric current remains unchanged irrespective of the fact that each electron may possess greater kinetic energy. The option b is incorrect.
Increasing the wavelength of the incident light, reduces the energy of the incident photons. This will result in the emitted electrons exiting electrons leave with lesser energy. However, if the brightness remains the same, there would be no change in the number of electrons and hence the photo electric current remains unchanged. Option (c) is also incorrect.
The correct option is (a). The required current can be generated by increasing the brightness of the incident light.
The current in the solar panel generates by increasing the brightness of light that we shine on it. Hence, option (a) is correct.
Further Explanation:
Solar panels generate current using the principles of photoelectric emission. It states that when light of suitable frequency falls on any photosensitive substance, a photon of the incident radiation interacts with an electron of substance and liberates it out from surface of substance
(a)
On increasing the brightness of light, the intensity increases. With the increase in intensity, the number of incident photon increases. With the increase in number of photon, the photon energy increases. With the increase in energy of photon, number of liberated electrons increases because photon energy is required to excite or liberate the electrons. With the increase in number of liberated electrons, the current increase as current is the rate of flow of electrons with time. Hence, current increases with the increase in brightness of incident light.
(b)
On increasing the frequency of light, the energy of photon increases. However, the number of incident photon remains same because intensity remains unchanged. Hence, liberated electrons will have more energy but the number of electrons is unchanged. Therefore, current will not changed with the increase in frequency of light.
(c)
On increasing the wavelength of light, the energy of photon decreases. However, the number of incident photon remains same because intensity is not changed. Hence, liberated electrons will have lesser energy but the number of electrons is unchanged. Therefore, current will not changed with the increase in wavelength of light.
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Answer Details:
Grade: Middle School
Subject: Physics
Chapter: Atoms and nuclei
Keywords:
Balmer, series, light, visible, solar, panels, generate, current, Mark, power, station, electromagnetic, spectrum, week, gradually, increasing, brightness, shine, frequency, wavelength, energy, photon, liberated, electrons, unchanged and incident.
