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New answer posted
a year agoContributor-Level 10
1.13 When the third uncharged sphere C is brought in contact with the sphere A, then the charge is shared and becomes half. Then
= and = =
When the charged sphere C is brought in contact with charged sphere B, the charge between both the sphere is shared and becomes half
(q + =
Hence the force of repulsion between sphere A and B can be given as
F =
, where = Permittivity of free space = 8.854 = = = =
=
= 5.695N
New answer posted
a year agoContributor-Level 10
1.12 (a) Charge on sphere A, = 6.5 C
Charge on sphere B, = 6.5 C
Distance between the spheres, r = 50 cm = 0.5 m
Force of repulsion between two spheres
F =
, where = Permittivity of free space = 8.854
Therefore, F =
N = 0.0152 N = 1.52 N
(b) Charge on sphere A, = 2 6.5 C = 1.3
Charge on sphere B,
Distance between the spheres, r =
Force of repulsion between two spheres
F =
New answer posted
a year agoContributor-Level 10
13.31 Amount of Electric power to be generated, P = 200000 MW
10% of which to be obtained from nuclear power.
Hence, amount of nuclear power = 10% of 2
= 2
Heat energy release per fission of a
Efficiency of a reactor = 25%
So the amount of electrical energy converted from heat energy per fission = 25% of 200 MeV = 50 MeV
= 50
Therefore, number of atoms required per year =
1 mole of
Hence the mass of 7.884
Hence, the Urani
New answer posted
a year agoContributor-Level 10
13.30 Amount of hydrogen, m = 1 kg = 1000 g
1 mole of hydrogen, i.e. 1 g of hydrogen (
1 kg of hydrogen contains = 1000
Within Sun, four (
Hence the energy released from fusion of 1 kg of
Amount of
1 mole of
1 kg of
It is known that the amount of energy released in the fission of 1 atom of
New answer posted
a year agoContributor-Level 10
13.29 It can be observed from the given
Hence the energy corresponding to decay is given as:
= 1.088 – 0 = 1.088 MeV = 1.088
= 1.7408
We know,
Hence,
It can be observed from the given
Hence the energy corresponding to
= 6.592
W
New answer posted
a year agoContributor-Level 10
Ans.1.12
(a) Charge on sphere A,
Charge on sphere B,
Distance between the spheres, r = 50 cm = 0.5 m
Force of repulsion between two spheres
F =
(b) Charge on sphere A,
Charge on sphere B,
Distance between the spheres, r =
Force of repulsion between two spheres
F =
New question posted
a year agoNew answer posted
a year agoContributor-Level 10
13.25 Half life of
Half life of
The source has initially 10 % of
Suppose after t days, the source has 10% of
Initially:
Number of
Number of
Finally:
Number of
Number of
For
N' = 9N
For
9N' = N
On dividing equation (1) by equation (2), we get:
Taking l
New answer posted
a year agoContributor-Level 10
13.23 Average atomic mass of magnesium, m = 24.312 u
Mass of magnesium isotope
Mass of magnesium isotope
Mass of magnesium isotope
Let the abundance of magnesium isotope
Let the abundance of magnesium isotope
Therefore, the abundance of magnesium isotope
= (21.01 – x)%
The average atomic mass can be expressed as:
m =
24.312 =
x = 9.3%
Therefore the abundance of
New answer posted
a year agoContributor-Level 10
13.22 Let the amount on energy released during the electron capture process be
Let the amount of energy released during the positron capture process be
Let us assume
c = speed of light
Q-value of the electron capture reaction is given as:
= [
= [
Q-value of the positron capture reaction is given as:
= [
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