Home
Class 12
PHYSICS
For nuclei with A gt 100,...

For nuclei with `A gt 100`,

A

the binding energy of the nucleus decreases on an average as A increases

B

the binding energy per nucleon decreases on an average as A increases

C

if the nucleus breaks into two roughly equal parts, energy is released

D

if two nuclei fuse to form a bigger nucleus, energy is released.

Text Solution

Verified by Experts

The correct Answer is:
B, C
Promotional Banner

Topper's Solved these Questions

  • NUCLEAR PHYSIC

    MTG-WBJEE|Exercise WB JEE PREVIOUS YEARS QUESTIONS ( CATEGORY 1 : Single Option Correct Type )|1 Videos

  • NUCLEAR PHYSIC

    MTG-WBJEE|Exercise WB JEE PREVIOUS YEARS QUESTIONS|5 Videos

  • NUCLEAR PHYSIC

    MTG-WBJEE|Exercise WB JEE WORKOUT (CATEGORY 2: Single Option Correct Type )|15 Videos

  • MOTION OF CENTRE OF MASS, CONNECTED SYSTEMS, FRICTION

    MTG-WBJEE|Exercise WB-JEE Previous years questions|17 Videos

  • OSCILLATIONS AND WAVES

    MTG-WBJEE|Exercise WB JEE PREVIOUS YEARS QUESTIONS (CATEGORY 3: ONE OR MORE THAN ONE OPTION CORRECT TYPE (2 MARKS))|2 Videos

Similar Questions

Explore conceptually related problems

For nuclei with Agt100 , mark the INCORRECT statement:

The binding energy per nucleon, for nuclei with atomic mass number A gt 100 , decreases with A . The nuclear forces are weak for heavier nuclei.

Assertion (A): The binding energy per nucleon, for nuclei with mass number (A) gt 56 decreases with A. Reason (R): Nuclear force is weak in heavier nuclei.

When two nuclei (with A=8) join to form a heavier nucleus , the binding energy (B.E) per nucleon of the heavier nuclei is

A radioactive nuclei with decay constant 0.5 nuclei/s is being produced at a constant rate of 100 nuclei/s. If at t = 0 there were no nuclei, the time when there are 50 nuclei is

A radioactive nuclei with decay constant 0.5/s is being produced at a constant rate of 100 nuclei/s . If at t = 0 there were no nuclei , the time when there are 50 nuclei is :

For a stable nuclei the