Advertisements
Advertisements
Question
Two heating elements of resistances R1 and R2 when operated at a constant supply of voltage, V, consume powers P1 and P2 respectively. Deduce the expressions for the power of their combination whey they are, in turn, connected in (i) series and (ii) parallel across the same voltage supply.
Solution
Given
`P_1 = V^2/R_1 & P_2=V_2/ R_2`
(i) Power when they are connected in series
`P_(eq) =V^2/R_(eq) = V^2/(R_1 +R_2)` `(\text { From given information} R_1 =V^2/P_2;R_2 =V^2/P_2)`
`=> P_(eq) = V^2/(V^2/P_1 + V^2/P_2)`
`P =(P_1P_2)/(P_1+P_2)`
(ii) Power when they are connected in parallel
`P_(eq) = V^2/R_(eq)`
`1/R_(eq) = 1/R_1 +1/R_2`
`=>P_(eq) =V^2 (1/R_1 +1/R_2)`
`=V^2/R_1 +V^2/R_2`
`P_(eq =P_1 +P_2)`
APPEARS IN
RELATED QUESTIONS
Two electric bulbs P and Q have their resistances in the ratio of 1 : 2. They are connected in series across a battery. Find the ratio of the power dissipation in these bulbs
Three identical cells each of emf 2V and internal resistance 10 Ω are connected in series to form a battery. The battery is then connected to a parallel combination of two identical resistors, each of resistance 6 Ω. Find the current delivered by the battery.
The emf ε and the internal resistance r of the battery, shown in the figure, are 4.3 V and 1.0 Ω respectively. The external resistance R is 50 Ω. The resistances of the ammeter and voltmeter are 2.0 Ω and 200 Ω respectively. (a) Find the readings of the two meters. (b) The switch is thrown to the other side. What will be the readings of the two meters now?
A current of 2 A flows in conductors as shown. The potential difference VA- VB will be ________.
Combine three resistors 5 Q, 4.5 Q and 3 Q in such a way that the total resistance of this combination is maximum ______.
In parallel combination of n cells, we obtain ______.
The instantaneous values of emf and the current in a series ac circuit are-
E = Eo Sin ωt and I = Io sin (ωt+π/3) respectively, then it is ______.
Three resistors having values R battery. Suppose R1 carries a current of 2.0 A, R ohms, and R3 dissipates 6.0 watts of power. Then the voltage across R is ______.
Assertion (A): To increase the range of an ammeter, we must connect a suitable high resistance in series to it.
Reason (R): The ammeter with increased range should have high resistance.
Select the most appropriate answer from the options given below:
