| 1 |
Phenomenon of radioactivity is due to disintegration of |
nucleus
neutron
proton
molecule
|
| 2 |
A curie represents a very strong source of |
<span style="color: rgb(34, 34, 34); font-family: arial, sans-serif; font-size: small;">α-particle</span>
<span style="color: rgb(34, 34, 34); font-family: arial, sans-serif; font-size: small;">β-particle</span>
<span style="color: rgb(34, 34, 34); font-family: arial, sans-serif; font-size: small;">γ-particle</span>
none of these
|
| 3 |
The rate of decay of radioactive substance |
is constant
decrease exponentially with time
varies inversely as time
decreases linearly with time
|
| 4 |
The energy of the 4th orbit in hydrogen atom is |
2.5 ev
- 3.5 ev
-0.85 ev
-13.6 ev
|
| 5 |
Position and momentum of a particle cannot both be measured simultaneously with perfect accuracy. This is the statement of |
photoelectric effect
pair production
Compton effect
uncertainty principle
|
| 6 |
de-Broglies hypthesis was experimentally verified by |
Maxwell
Compton
Einstein
Davison and Germer
|
| 7 |
G.P. Thomson observer experimentally that electrons and neutrons possess |
particle-like properties
wave-like properties
neither particle nor wave like properties
none of these
|
| 8 |
Davision and Germer performed experiment to verify |
de-Brogile hypothesis
theory of relativity
Newton's law of gravitation
Mass-energy relation
|
| 9 |
Wave nature of particle was proposed by |
Einstein
Plank
De-Brogile
Max well
|
| 10 |
Momentum is a parameter associated with |
wave motion
particle motion
neither wave nor particle motion
none of these
|
| 11 |
With the help of 50 K v electron microscope, a resolution of |
0.5 to 1 m to possible
1 m to 10 m is possible
0.5 to 1 nm is possible
1 to 10 nm is possible
|
| 12 |
Which of the following phenomenon proves the particle nature of light |
interference
diffraction
photoelectric effect
none of these
|
| 13 |
An electron is accelerated through a potential difference of 50v. its de-Brogile wavelength is |
1.66 x 10<sup>-29</sup>m
1.74 x 10<sup>-10</sup>cm
17.4 x 10<sup>-6</sup>m
1.74 x 10<sup>-10</sup>m
|
| 14 |
A particle of mass 5.0 mg moves with a speed of 8.0 m/s. Its de-Brogile wavelength is |
1.66 m
1.66 x 10<sup>-10</sup>m
1.66 x 10<sup>-29</sup>cm
1.66 x 10<sup>-29</sup>m
|
| 15 |
Victor de-Brogile received the Nobel prize in physics in |
1925
1929
1932
1935
|
| 16 |
0.1 kg mass will be equivalent to the energy |
9 x 10<sup>15</sup>J
5 x 10<sup>8</sup>J
6 x 10<sup>16</sup>J
9 x 10<sup>-16</sup>J
|
| 17 |
The stopping voltage for a certain metal is 100 volts, then the work function for the cathode plate is |
100 J
1.6 x 10<sup>-17</sup>J
100 eV
1.6 x 10<sup>-17</sup>eV
|
| 18 |
According to the de-Brogile relation, an object of large mass and ordinary speed has |
very small wavelength
very large wavelength
very small frequency
all of these
|
| 19 |
Photocell is a device which converts |
chemical energy into electrical energy
electrical energy into light energy
heat energy into electrical energy
light energy into electrical energy
|
| 20 |
In process of annihilation of matter, the two photons produced move in opposite direction to converse |
momentum
charge
energy
mass
|
| 21 |
Pair production is the phenomenon in which |
matter is converted into energy
energy is converted into matter
light is converted into electrical energy
electrical energy is converted into light
|
| 22 |
Position was discovered by Carl Anderson in |
1920
1925
1928
1932
|
| 23 |
The existence of position was predicted by Dirace in |
1920
1925
1930
1928
|
| 24 |
When a position comes close to an electron they annihilate into photons such that |
each photon has energy 0.51 Me v
each photon has energy 1.02 Me v
each photon has energy 0.25 Me v
none of these
|
| 25 |
When a position comes close to an electron they annihilate into |
one photon
two photons which travel in the same direction
two photons which travels in the opposite direction
two photons which travel in any direction
|
| 26 |
Converse of pair production is known as |
Compton effect
annihilation of matter
photoelectric effect
none of these
|
| 27 |
In order to produce pair production, a photon must have a energy |
0.511 Me v
0.256 Me v
1.02 Me v
0.956 Me v
|
| 28 |
If the radius of first orbit of hydrogen atom is 0.53° A the radius of second orbit will be |
2.120<span style="color: rgb(84, 84, 84); font-family: arial, sans-serif; font-size: small;">°A</span>
0.212<span style="color: rgb(84, 84, 84); font-family: arial, sans-serif; font-size: small;">°A</span>
21.2<span style="color: rgb(84, 84, 84); font-family: arial, sans-serif; font-size: small;">°A</span>
0.14<span style="color: rgb(84, 84, 84); font-family: arial, sans-serif; font-size: small;">°</span><div><span style="color: rgb(84, 84, 84); font-family: arial, sans-serif; font-size: small;">a</span></div>
|
| 29 |
When a high energy photon interact with a metal, which of the following effect is most likely to be taken place |
pair production
photoelectric effect
Compton effect
None of these
|
| 30 |
When low energy photon interact with a metal,which of the following effect is likely to be taken place |
pair production
photoelectric
Compton effect
None of these
|
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