A heating coil is labelled `100 W, 220 V`. The coil is cut in two equal halves and the two pieces are joined in parallel to the same source. The energy now liberated per second is

A heating coil is rated 100 W , 200 V . The coil is cut in half and two pieces are joined in parallel to the same source . Now what is the energy ( "in" xx 10^(2) J) liberated per second?

A heater coil is rated 100W,200V. It is cut into two identical parts. Both parts are connected together in parallel, to the same sources of 200V. Calculate the energy liberated per second in the new combination.

A heater coil is rated 100W,200V. It is cut into two identical parts. Both parts are connected together in parallel, to the same sources of 200V. Calculate the energy liberated per second in the new combination.

A heater coil is cut into two equal parts and only one part is now used in the heater. The heat generated will now be

Two electric bulbs A and B are rated as 60 W and 100 W . They are connected in parallel to the same source. Then,

A light spring of force constant 8 Nm^(-1) is cut into two equal halves and the two are connected in parallel, the equivalent force constant of the system is

A heater coil c onnected across a give potential difference has power P . Now , the coil is cut into two equal halves and joined in parallel . Across the same potential difference, this combination has power

The coil of a 1 000W electric heater is cut into two equal parts. If the two parts are used separately as heaters, their combined wattage will

Two electric bulbs A and B are rated 60 and 100 W , respectively. If they are connected in parallel to the same source , then

A wire when connected to 220 V mains supply has power dissipation P_1 . Now the wire is cut into two equal pieces which are connected in parallel to the same supply. Power dissipation in this case is P_2 . Then P_2: P_1 is