Dual Nature Of Radiation And Matter MCQs With Answers – Part 2 (Class 12 Physics)
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Dual Nature of Radiation and Matter MCQs with Answers – Part 2 (Class 12 Physics)

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111. The frequency of incident radiation is changed from \(6.0\times10^{14}\,Hz\) to \(8.0\times10^{14}\,Hz\) for the same metal. If \(h=6.6\times10^{-34}\,J\,s\), the increase in maximum kinetic energy is
ⓐ. \(1.32\times10^{-19}\,J\)
ⓑ. \(6.6\times10^{-20}\,J\)
ⓒ. \(3.96\times10^{-19}\,J\)
ⓓ. \(5.28\times10^{-19}\,J\)
112. A current-potential curve shifts so that its zero-current intercept moves from \(-1.0\,V\) to \(-2.0\,V\), while the saturation current remains nearly the same. The most suitable change in incident radiation is
ⓐ. intensity increased while frequency remained the same
ⓑ. higher frequency with adjusted intensity
ⓒ. frequency decreased below threshold
ⓓ. work function of the same clean surface became zero
113. Threshold-frequency comparison uses radiations of frequencies \(0.8\nu_0\), \( \nu_0 \), and \(1.5\nu_0\) incident separately on a metal whose threshold frequency is \( \nu_0 \). The case with the largest maximum kinetic energy is
ⓐ. \(0.8\nu_0\)
ⓑ. \( \nu_0 \)
ⓒ. \(1.5\nu_0\)
ⓓ. all three give the same \(K_{\max}\)
114. A \(K_{\max}\)-versus-frequency graph for a given metal is described below.
The graph is a straight line. It cuts the frequency axis at \( \nu=\nu_0 \), and \(K_{\max}\) increases for \( \nu\gt\nu_0 \).
The frequency-axis intercept represents
ⓐ. the saturation current of the tube
ⓑ. the threshold frequency of the metal
ⓒ. the stopping potential for all metals
ⓓ. the photon momentum at zero wavelength
115. A comparison of frequency effects is shown below.
Change made for the same metalEffect on \(K_{\max}\)Effect on \(V_0\)
P. Frequency increased above \( \nu_0 \)IncreasesIncreases
Q. Frequency reduced to exactly \( \nu_0 \)Becomes \(0\)Becomes \(0\)
R. Frequency reduced below \( \nu_0 \)No photoemissionNo stopping potential measured
The assessment of the table is
ⓐ. only P is valid
ⓑ. only P and Q are valid
ⓒ. only Q and R are valid
ⓓ. P, Q and R are valid
116. A claim says, “Increasing the frequency of light always increases photoelectric current.” A better statement is that increasing frequency above threshold certainly tends to increase
ⓐ. work function and electron charge
ⓑ. saturation current at every fixed intensity without exception
ⓒ. the rest mass of photons
ⓓ. maximum kinetic energy and stopping potential
117. Two photoelectric \(I\)-\(V\) curves for the same metal reach the same saturation current, but curve \(P\) cuts the negative potential axis farther from the origin than curve \(Q\). This most likely means that curve \(P\) was obtained with
ⓐ. higher frequency with adjusted intensity
ⓑ. greater intensity at the same frequency
ⓒ. lower frequency and greater work function
ⓓ. below-threshold radiation of greater intensity
118. The graph description for a photoelectric tube is given below.
Curve \(X\) and curve \(Y\) are plotted between photoelectric current \(I\) and collector potential \(V\). Both curves have the same stopping potential. Curve \(Y\) reaches twice the saturation current of curve \(X\).
The best conclusion is that curve \(Y\) corresponds to
ⓐ. twice the frequency at the same intensity
ⓑ. twice the intensity at the same frequency
ⓒ. half the work function of the same metal
ⓓ. below-threshold radiation with longer exposure time
119. The retarding region of a photoelectric \(I\)-\(V\) curve is the part where
ⓐ. the collector is negative and current falls under retardation
ⓑ. the collector is strongly positive and all emitted electrons are collected
ⓒ. the incident frequency is below threshold and saturation current is maximum
ⓓ. the metal work function becomes independent of material
120. A photoelectric-current table is shown below.
Change madeExpected graph change
P. Increase intensity at fixed \( \nu\gt\nu_0 \)Saturation current increases
Q. Increase frequency at adjusted intensityStopping potential increases
R. Make collector more negativeCurrent decreases in the retarding region
S. Increase positive collector potential after saturationCurrent keeps increasing linearly without limit
The mismatched row is
ⓐ. P
ⓑ. Q
ⓒ. S
ⓓ. R
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