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In the α-decay process occurring in different types of nuclei at rest (i) the K.E. of the daughter nucleus is always greater than the K.E. of the α-particle (ii) the K.E. of the daughter nucleus is always less than the K.E. of the α-particle (iii) the magnitudes of the linear momenta of the α-particle and the daughter nucleus are always equal (iv) the daughter nucleus is always in a stable state
17
Jun
In the α-decay process occurring in different types of nuclei at rest (i) the K.E. of the daughter nucleus is always greater than the K.E. of the α-particle (ii) the K.E. of the daughter nucleus is always less than the K.E. of the α-particle (iii) the magnitudes of the linear momenta of the α-particle and [...]
Posted in: Cengage NEET by C.P Singh , Chapter 14 - Nuclear Physics and Radioactivity , Part 2 ,
Tags: The binding energy of deuteron .21H is 1.112 MeV per nucleon and an α−particle .42He has a binding energy of 7.047MeV per nucleon. Then in the fusion reaction .21H+.21h→.42He+Q , the energy Q released is. ,
In nuclear reactions we have conservation of
17
Jun
In nuclear reactions we have conservation of In nuclear reactions we have conservation of June 17, 2021 Category: Cengage NEET by C.P Singh , Chapter 14 - Nuclear Physics and Radioactivity , Part 2 ,
Posted in: Cengage NEET by C.P Singh , Chapter 14 - Nuclear Physics and Radioactivity , Part 2 ,
Tags: In nuclear reactions we have conservation of ,
The binding energy of deuteron .21H is 1.112 MeV per nucleon and an α−particle .42He has a binding energy of 7.047MeV per nucleon. Then in the fusion reaction .21H+.21h→.42He+Q, the energy Q released is.
17
Jun
The binding energy of deuteron .21H is 1.112 MeV per nucleon and an α−particle .42He has a binding energy of 7.047MeV per nucleon. Then in the fusion reaction .21H+.21h→.42He+Q, the energy Q released is. The binding energy of deuteron .21H is 1.112 MeV per nucleon and an α−particle .42He has a binding energy of 7.047MeV [...]
Posted in: Cengage NEET by C.P Singh , Chapter 14 - Nuclear Physics and Radioactivity , Part 2 ,
Tags: The binding energy of deuteron .21H is 1.112 MeV per nucleon and an α−particle .42He has a binding energy of 7.047MeV per nucleon. Then in the fusion reaction .21H+.21h→.42He+Q , the energy Q released is. ,
The masses of neutron and proton are 1.0087 and 1.0073 amu respectively. If the neutrons and protons combine to form helium nucleus of mass 4.0015 amu the binding energy of the helium nucleus will be
17
Jun
The masses of neutron and proton are 1.0087 and 1.0073 amu respectively. If the neutrons and protons combine to form helium nucleus of mass 4.0015 amu the binding energy of the helium nucleus will be The masses of neutron and proton are 1.0087 and 1.0073 amu respectively. If the neutrons and protons combine to form [...]
Posted in: Cengage NEET by C.P Singh , Chapter 14 - Nuclear Physics and Radioactivity , Part 2 ,
Tags: The masses of neutron and proton are 1.0087 and 1.0073 amu respectively. If the neutrons and protons combine to form helium nucleus of mass 4.0015 amu the binding energy of the helium nucleus will be ,
If the total binding energies of 21H, 42He, 5626Fe & 23592U U nuclei are 2.22, 28.3, 492 and 1786 MeV respectively, identify the most stable nucleus out of the following.
17
Jun
If the total binding energies of 21H, 42He, 5626Fe & 23592U U nuclei are 2.22, 28.3, 492 and 1786 MeV respectively, identify the most stable nucleus out of the following. 28.3 42He 492 and 1786 MeV respectively 5626Fe & 23592U U nuclei are 2.22 identify the most stable nucleus out of the following. If the [...]
Posted in: Cengage NEET by C.P Singh , Chapter 14 - Nuclear Physics and Radioactivity , Part 2 ,
Tags: 28.3 , 42He , 492 and 1786 MeV respectively , 5626Fe & 23592U U nuclei are 2.22 , identify the most stable nucleus out of the following. , If the total binding energies of 21H ,
As the mass number A increases, which of the following quantities related to a nucleus do not change?
17
Jun
As the mass number A increases, which of the following quantities related to a nucleus do not change? As the mass number A increases which of the following quantities related to a nucleus do not change? June 17, 2021 Category: Cengage NEET by C.P Singh , Chapter 14 - Nuclear Physics and Radioactivity , Part [...]
Posted in: Cengage NEET by C.P Singh , Chapter 14 - Nuclear Physics and Radioactivity , Part 2 ,
Tags: As the mass number A increases , which of the following quantities related to a nucleus do not change? ,
Two protons are kept at a separation of 10 nm. Let Fn and Fe be the nuclear force and the electromagnetic force between them.
17
Jun
Two protons are kept at a separation of 10 nm. Let Fn and Fe be the nuclear force and the electromagnetic force between them. Two protons are kept at a separation of 10 nm. Let Fn and Fe be the nuclear force and the electromagnetic force between them. June 17, 2021 Category: Cengage NEET by [...]
Posted in: Cengage NEET by C.P Singh , Chapter 14 - Nuclear Physics and Radioactivity , Part 2 ,
Tags: Two protons are kept at a separation of 10 nm. Let Fn and Fe be the nuclear force and the electromagnetic force between them. ,
The graph of in(R/R0) versus in A (R=radius of a nucleus and A= its mass number) is
09
Jun
The graph of in(R/R0) versus in A (R=radius of a nucleus and A= its mass number) is The graph of in(R/R0) versus in A (R=radius of a nucleus and A= its mass number) is June 9, 2021 Category: Cengage NEET by C.P Singh , Chapter 14 - Nuclear Physics and Radioactivity , Part 2 ,
Posted in: Cengage NEET by C.P Singh , Chapter 14 - Nuclear Physics and Radioactivity , Part 2 ,
Tags: The graph of in(R/R0) versus in A (R=radius of a nucleus and A= its mass number) is ,
The energy stored in 60 cm length of a large beam operating at 4 mW is
09
Jun
The energy stored in 60 cm length of a large beam operating at 4 mW is The energy stored in 60 cm length of a large beam operating at 4 mW is June 9, 2021 Category: Cengage NEET by C.P Singh , Chapter 10 - Electromagnetic Waves , Part 2 ,
Posted in: Cengage NEET by C.P Singh , Chapter 10 - Electromagnetic Waves , Part 2 ,
Tags: The energy stored in 60 cm length of a large beam operating at 4 mW is ,
The rms value of the electric field of the light from the sun is 720 N/C The total energy density of the electromagnetic wave is
09
Jun
The rms value of the electric field of the light from the sun is 720 N/C The total energy density of the electromagnetic wave is The rms value of the electric field of the light from the sun is 720 N/C The total energy density of the electromagnetic wave is June 9, 2021 Category: Cengage [...]
Posted in: Cengage NEET by C.P Singh , Chapter 10 - Electromagnetic Waves , Part 2 ,
Tags: The rms value of the electric field of the light from the sun is 720 N/C The total energy density of the electromagnetic wave is ,