An imaginary closed surface P is constru...

An imaginary closed surface P is constructed around a neutral conducting wire connected to a battery and a switch as shown in figure. As the switch is closed, the free electrons in the wire start moving along the wire. In any time interval, the number of electrons entering the closed surface P is equal to the number of electrons leaving it. On closing the switch, the flux of the electric field through the closed surface :

Similar Questions

Explore conceptually related problems

A closed surface S is constructed around a conducting wire connected to a battery and a switch (figure 30-Q6). As the switch is closed, the free electrons in the wire start moving along the wire. In any time interval, the number of electrons entering the closed surface S is equal to the number of electrons leaving it. On closing the switch, the flux of the electric field through the closed surface

A closed surface S is condtructed sround a conducting wire connected to a battery and a switic (figure 30-Q6). As the switch is clsed, the free electrons in the wire start moving along the wire. In any time interval, the number of electrons entering the closed surface S is equal to the number of electrons leaving it. On closing the switch, the flux of the electic field hrough the closed surface

If the switch is closed then current will flow.

In the circuit as shown in figure the switch is closed at t = 0 . At the instant of closing the switch

In the circuit as shown in figure the switch is closed at t = 0 . A long time after closing the switch

Figure shown a closed surface which intersects a conducting sphere. If a positive charge is placed at the point P, the flux of the electric field through the closed surface

Figure shown a closed surfce which intersects a conducting sphere. If a positive charge is placed at the point P, the flux of the electric field through the closed surface

Similar Questions

Recommended Questions