Magnetic Disk class 10 | 10th class physics ch 17 magnatic disk | storage devices sabaq in urdu
Related searches
10th class physics chapter 13 problems
P13.1
P13.2
P13.3
Problems class 10 chapter 13 federal board Rawalpindi board punjab board
NUMERICAL PROBLEMS
13.1. The charge of how many negatively charged particles would be equal to 100 µC.
–19
Assume charge on one negative particle is 1.6 × 10 C ?
14
Ans. (6.25 × 10 )
13.2. Two point charges q = 10 µC and q = 5 µC are placed at a distance of 150 cm. What 1 2
will be the Coulomb's force between them? Also find the direction of the
force.
Ans. (0.2 N, the direction of repulsion)
13.3. The force of repulsion between two identical positive charges is 0.8 N, when the
charges are 0.1 m apart. Find the value of each charge.
–7
Ans. (9.4 × 10 C)
13.4. Two charges repel each other with a force of 0.1 N when they are 5 cm apart. Find
the forces between the same charges when they are 2 cm apart. Ans.
(0.62 N)
13.5.
4
The electric potential at a point in an electric field is 10 V. If a charge of +100 µC is
brought from infinity to this point. What would be the amount of work done
on it?
Ans.(1 J)
13.6. A point charge of +2 C is transferred from a point at potential 100 V to a point at
potential 50 V. What would be the energy supplied by the charge? Ans. (100 J)
13.7. A capacitor holds 0.06 coulombs of charge when fully charged by a 9 volt battery.
Calculate capacitance of the capacitor. Ans. (6.67 ×
–3
10 F)
13.8. A capacitor holds 0.03 coulombs of charge when fully charged by a 6 volt battery.
How much voltage would be required for it to hold 2 coulombs of charge?
Ans.(400 V)
13.9. Two capacitors of capacitances 6 µF and 12 µF are connected in series with 12 V
battery. Find the equivalent capacitance of the combination. Find the charge and
the potential difference across each capacitor. Ans. (4 µF, 48 µC, 8 V, 4 V)
13.10. Two capacitors of capacitances 6 µF and 12 µF are connected in parallel with a 12 V
battery. Find the equivalent capacitance of the combination. Find the charge
and the potential difference across each capacitor. Ans. (18 µF, 72 µC, 144
