The electrodes of a capacitor of capaci...

The electrodes of a capacitor of capacitance `C = 2.00 muF` carry opposite charges `q_(0) = 1.00 mC`. Then the electores are interconnected through a resistanace `R = 5.0 M Omega`. Find:
(a) the charge flowing thorugh that resistance during a time interval `tau = 2.00 s`,
(b) the amount of heat generated in the resistance during the same interval.

Topper's Solved these Questions

CAPACITANCE
PHYSICS GALAXY - ASHISH ARORA|Exercise UNSOLVED NUMERICAL PROBLEMS|40 Videos
ELECTROMAGNETIC INDUCTION AND ALTERNATING CURRENT
PHYSICS GALAXY - ASHISH ARORA|Exercise Advance MCQs|33 Videos

Similar Questions

Explore conceptually related problems

The charge flowing through a resistance R varies with time as Q=2t-8t^(2) . The total heat produced in the resistance is (for 0letle(1)/(8))

A magnetic flux through a stationary loop with a resistance R varies during the time interval tau as phi=at(tau-t) . Find the amount of the generated in the loop during that time

A capacitor of capacitance C is allowed to discharge through a resistance R. The net charge flown through resistance during one time constant is ( I_(0) is the maximum current)

A magentic flux through a statinary loop with a resistance R varies during the tiem interval tau as Phi = at (tau - t) . Find the amount of heat generated in the loop during that time. The inductance of the loop is to be neglected.

The charge Q( in coulomb) flowing through a resistance R=10Omega varies with time t (in second) as Q=2t-t^2 . The total heat produced in resistance R is

The charge flowing through a resistance R varies with time t as Q=at-bt^(2) , where a and b are positive constant. The total heat produced in R is

A direct current of 2A and an AC of peak value 2A flows through resistances 2Omega and 1Omega respectively. Find the ratio of heat produced in the two resistances in same interval.

A capacitor of capacitance C is given a charge Q. At t=0 ,it is connected to an uncharged of equal capacitance through a resistance R. Find the charge on the second capacitor as a function of time.

PHYSICS GALAXY - ASHISH ARORA-CURRENT ELECTRICITY-All Questions

A circuit shown in Fig, has resistances R(1) = 20 Omega and R(2) = 30...
Text Solution
|
A capacitor of capacitance C= 500 mu F is connected to a source of con...
Text Solution
|
The electrodes of a capacitor of capacitance C = 2.00 muF carry oppos...
Text Solution
|
In a circuit shown in fig. the capacitance of each capacitor is equal...
Text Solution
|
Ten cells each of emf 1 V and internal resistance 1Omega are connected...
Text Solution
|
It is desired to make a 20Omega coil of wire, which has a zero thermal...
Text Solution
|
Calculate the value ofcurrent supplied bythe battery in the circuit sh...
Text Solution
|
In Figure E1=12V and E2=8V (a) What is the direction of the current ...
Text Solution
|
A part of a circuit is shown in figure. Here reading of ammeter is 5A ...
Text Solution
|
Resistances R(1) and R(2), each 600 Omega, are connected in series as ...
Text Solution
|
A moving coil galvanometer of resistance 20 Omega gives a full scale d...
Text Solution
|
The resistance RG of the coil of a pivoted-coil galvanometer is 9.36 O...
Text Solution
|
(a) A voltmeter with resistance Rv is connected across the terminals o...
Text Solution
|
An ammeter with resistance RA is connected in series with a resistor R...
Text Solution
|
Assume that the batteries in the circuit shown in figure- 3.384 have n...
Text Solution
|
Three resistors having resistances of 1.60 Omega, 2.40 Omega and 4.80 ...
Text Solution
|
Draw the circuit for experimental verification of Ohm's law using a so...
Text Solution
|
A galvanometer (coil resistance 99 Omega.) is converted into an ammete...
Text Solution
|
Two electic bulbs marked 25 W -220 V and 100 W - 220 V are connected i...
Text Solution
|
Fig. illustrates a potentiometric circuit by means of which we can ve...
Text Solution
|