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Match the following two columns. [https://lh3.googleuserconten
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Solving time: 4 mins

Match the following two columns.
Nuclear Energy

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Views: 5,932 students

Updated on: Sep 10, 2023

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Book:

Optics And Modern Physics (DC Pandey)

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Match the following two columns.
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(b)
(c)
(d) q
(a) is of the order of , where Boltzmann constant and
(c) to X-rays is of the order of


where, is in .
(d) is of the order of
Now, in
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Practice questions from Optics And Modern Physics (DC Pandey)

Question 1
Hard
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Views: 5,569

A star initially has deuterons. It produces energy via the processes and . If the average power radiated by the star is , the deuteron supply of the star is exhausted in a time of the order of
Topic

Topic:

Nuclei

Book

Book:

Optics And Modern Physics (DC Pandey)

View solution

Question 2
Hard
Views

Views: 5,123

Nuclei of a radioactive element are being produced at a constant rate . The element has a decay constant . At time , there are nuclei of the element. (a) Calculate the number of nuclei of at time . (b) If , calculate the number of nuclei of after one half-life of , and also the limiting value of as .
Topic

Topic:

Nuclei

Book

Book:

Optics And Modern Physics (DC Pandey)

View solution

Question 3
Medium
Views

Views: 5,974

Two radioactive substances have half-lives and . Initially, they have equal number of nuclei. After time , the ratio of their number of nuclei is and the ratio of their activity is . Then,
Topic

Topic:

Nuclei

Book

Book:

Optics And Modern Physics (DC Pandey)

View solution

Question 4
Medium
Views

Views: 5,646

A sample of radioactive substance loses half of its activity in 4 days. The time in which its activity is reduced to is
  1. 12 days
  2. days
  3. days
  4. None of these
Topic

Topic:

Nuclei

Book

Book:

Optics And Modern Physics (DC Pandey)

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Practice more questions from Nuclei

Question 1
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(a) Two stable isotopes of lithium and have respective abundances of 7.5% and 92.5%. These isotopes have masses 6.01512 u and 7.01600 u, respectively. Find the atomic mass of lithium.

(b) Boron has two stable isotopes, and . Their respective masses are 10.01294 u and 11.00931 u, and the atomic mass of boron is 10.811 u. Find the abundances of and  B.
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Nuclei

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Physics Part-II (NCERT)

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Question 2
Medium
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A star initially has deuterons. It produces energy via the processes and . If the average power radiated by the star is , the deuteron supply of the star is exhausted in a time of the order of
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Nuclei

Exam

Exam:

JEE Advanced 1993

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Question 3
Hard
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The half lives of two longest - lived radioactive isotopes of phosphorus and , are 14 days and 28 days respectively. sample has been prepared by mixing the two isotopes in the ratio of of their atoms. Initial activity of the mixed sample is . Find the activity of the sample after 80 days. Take and
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Nuclei

Book

Book:

Problems in Physics II for IIT JEE (McGraw Hill)

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Question 4
Medium
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Two radioactive materials and have decay constants and respectively. If initially, they have the same number of nuclei, then the ratio of the number of nuclei of to that of will be after a time
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Nuclei

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Practice questions on similar concepts asked by Filo students

Question 1
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30. A body rotating at is acted upon by a constant torque providing it a deceleration of . At what time will the body have kinetic energy same as the initial value if the torque continues to act? 31. A light rod of length is pivoted at its centre and two masses of and are hung from the ends as shown in figure (10-E3), Find the initial angular acceleration of the rod assuming that it was horizontal in the beginming. Figure 10-Es 22. Suppose the rod in the previous problem has a mass of distributed uniformly over its length. (i) Find the initial angular acceleration of the rod. (t) bind the tension in the supports to the blocks of mass and
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Question 2
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The original Fermilab Booster synchrotron - still in operation today - was designed in the late 1960s and has the following configuration: - 24 identical periods. - Each BF magnet and each BD magnet is 2.889612 m long (design value) and are rectangular, rather than sector, elements. - Each BF magnet operates with a central field value of 0.72588 T and has a field gradient of 1.60761 T/m. - The fields above correspond to a final proton kinetic energy of 8 GeV. - Each of the 24 periods has the following geometric configuration: 0.6m-BF-0.5m-BD-6.0m-BD-0.5m-BF-0.6m.
  1. Verify that the above configuration should bend the beam through 360 degrees. What is the total circumference of the ring, and what fraction of the circumference contains bending?
  2. Create an appropriate MADx input file with a beam line that describes the Fermilab Booster. Compute and print out the values of the
  3. What are the betatron oscillation tunes (νx, νy) of the synchrotron?
  4. Plot the periodic amplitude functions P, P' and the dispersion function D throughout a single period.
  5. Protons are injected into the Booster ring from a linear accelerator when the proton kinetic energy is 400 MeV. Make a plot of the revolution time (in microseconds) for an ideal proton as a function of magnetic field corresponding to the ring's range of operation.
  6. Suppose that a single BF magnet in the ring has its gradient altered by +5%. Compute the resulting change in the horizontal and vertical.
Topic

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Question 3
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Current flowing through the segment of the circuit as shown in figure, is
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Can the coefficient of performance be infinity ?
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Question Text
Match the following two columns.
Updated OnSep 10, 2023
TopicNuclei
SubjectPhysics
ClassClass 12
Answer TypeText solution:1 Video solution: 2
Upvotes340
Avg. Video Duration4 min