10 g of radioactive material of half-life 15 year is kept in store for 20 years. The disintegrated material mass is
1. 12.5 g
2. 10.5 g
3. 6.03 g
4. 4.03 g
If a radioactive nucleus decays according to the following reaction
then the mass number and the atomic number of then the mass number and the atomic number of will be, respectively
1. 172, 70
2. 172, 69
3. 172, 68
4. 171, 69
Two radioactive materials and have decay constants 10 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
1.
2.
3.
4.
A radioactive material has mean-lives of 1620 yr and 520 yr for and -emission. The material decays by simultaneous and -emission. The time in which 1/4th of the material remains intact is
1. 4675 yr
2. 720 yr
3. 545 yr
4. 324 yr
The radioactivity of an element becomes of its original value in 60 seconds. Then the half value period is
1. 5 sec
2. 10 sec
3. 20 sec
4. 30 sec
A nucleus of originally at rest emits particle with speed . What will be the recoil speed of the daughter necleus.
1. 4 / 206
2. 4 / 214
3. / 206
4. / 214
An atom of mass number 15 and atomic number 7 captures an -particle and then emits a proton. The mass number and atomic number of the resulting product will respectively be
1. 14 and 2
2. 15 and 3
3. 16 and 4
4. 18 and 8
Solar energy is mainly caused due to
1. fusion of protons during synthesis of heavier elements
2. gravitational contraction
3. burning of hydrogen in the oxygen
4. fission of uranium present in the sun
A sample of radioactive elements contains active nuclei. If half-life of element is 10 days, then the number of decayed nuclei after 30 days is
1.
2.
3.
4.
A and B are two radioactive substances whose half-lives are 1 and 2 years respectively. Initially 10 g of A and 1 g of B is taken. The time (approximate) after which they will have the same quantity remaining is:
1. 6.62 yr
2. 5 yr
3. 3.2 yr
4. 7 yr