If two light nuclei are fused together in nuclear reaction, the average energy per nucleon a)Increases b)Decreases c)Cannot be determined d)Remains same

If two light nuclie are fused together in nuclear reaction, the average energy per nucleon:

when two nuclei (A lt= 10) fuse together to form a heavier nucleus, the (a) binding energy per nucleon increases (b) binding energy per nucleon decreases (c) binding energy per nucleon does not change (d) total binding energy decreases

Assertion: Energy is released when heavy nuclei undergo fission or light nuclei undergo fusion. Reason: For heavy nuclei, binding energy per nucleon increases with increasing Z while for light nuclei it decreases with increasing Z.

Assertion: The nuclear energy can be obtained by the nuclear fission of heavier nuclei as well as by fusion of lighter nuclei. Reason: As the mass number increases, the binding energy per nucleon, first increases and then decreases.

If the density of the liquid used in a barometer is increased, the atmospheric pressure will: (a) increase (b) decrease (c) remain the same

If the circumference of a circle is increased by 20%, what will be the effect on the circle? (a) 40% increase (b) 44% increase (c) 48% increase (d) Cannot be determined (e) None of these

This question contains Statement - 1 and Statement -2 Of the four choice given after the Statements , choose the one that best decribes the two Statements Statement- 1: Energy is reased when heavy underge fission or light nuclei undergo fasion and Statement- 2: for nuclei , binding energy nucleon increases with increasing Z while for light nuclei it decreases with increasing Z

For nuclei with A gt 100 , (i) the binding energy of the nucleus decreases on an averages as A increases (ii) the binding enegry per nucleon decreases on an averages as A increases (iii) if the nucleus breaks into two roughly equal parts, enegry is released (iv) if two nuclei fuse to from a bigger nucleus, energy is released

The compound unstabel nucleus ._(92)^(236)U often decays in accordance with the following reaction _(92)^(236)U rarr ._(54)^(140)Xe + _(38)^(94)Sr + other particles During the reaction, the uranium nucleus ''fissions'' (splits) into the two smaller nuceli have higher nuclear binding energy per nucleon (although the lighter nuclei have lower total nuclear binding energies, because they contain fewer nucleons). Inside a nucleus, the nucleons (protonsa and neutrons)attract each other with a ''strong nuclear'' force. All neutrons exert approxiamtely the same strong nuclear force on each other. This force holds the nuclear are very close together at intranuclear distances. In the nuclear reaction presented above, the ''otter particles'' might be .

The compound unstabel nucleus ._(92)^(236)U often decays in accordance with the following reaction ._(92)^(236)U rarr ._(54)^(140)Xe +._(38)^(94)Sr + other particles During the reaction, the uranium nucleus ''fissions'' (splits) into the two smaller nuceli have higher nuclear binding energy per nucleon (although the lighter nuclei have lower total nuclear binding energies, because they contain fewer nucleons). Inside a nucleus, the nucleons (protonsa and neutrons)attract each other with a ''strong nuclear'' force. All neutrons exert approxiamtely the same strong nuclear force on each other. This force holds the nuclear are very close together at intranuclear distances. A proton and a neutron are both shot at 100 m s^(-1) toward a ._6^(12)C nuleus. Which partilce, if either, is more likely to be absorebed by the nucleus?