In Fig 27-50,` epsi=24.0 V, R_(1)=2000 Omega, R_(2)=3000 Omega and R_(3)=4000 Omega`. What are the potential differences (a) `V_(A)-V_(B)` (b) `V_(B)-V_(C)` (c) `V_(C)-V_(D) and (d) V_(A)-V_(C)?`

Two capacitors C_(1) and C_(2) are connected in a circuit as shown in figure. The potential difference (V_(A) - V_(B)) is

Find the current flowing through the resistance R_(1) of the circuit shown in figure-3.103. the resistances are equal to R_(1)=10Omega,R_(2)=20Omega and R_(3)=30Omega and the potentials of points 1,2 and 3 are given as V_(1)=10V,V_(2)=6V and V_(3)=5V .

In the circuit shown below E_(1) = 4.0 V, R_(1) = 2 Omega, E_(2) = 6.0 V, R_(2) = 4 Omega and R_(3) = 2 Omega . The current I_(1) is

Find the currents in the Y connection of 3 resistances R_(1) = 10Omega , R_(2)=20Omega and R_(3)= 30 Omega . When the terminals of R_(1) , R_(3) and R_(3) are maintained at potentials V_(1) = 10V, V_(2) =6V and V_(3) = 15V.

In the uniform electric field shown in figure, find : a. V_A-V_D b. V_A-V_C c. V_B-V_D d. V_C-V_D

In the circuit shown, the potential differences, V_(1) ( between A and B ) and V_(2) ( between C and D ), are

When an electron moves from A to B along and electric field line as shown in Fig. the electric field does 3.94xx10^(-19)J of work on it. What are the electric potential differences (V_(B) - V_(A)) , (V_(C) - V_(A)) , (V_(C) - V_(B)) ?

In the R_(1) = 10 Omega ,R_(2) = 20 Omega, R_(3) = 40 Omega R_(4) = 80 Omega and V_(A) = 5V,V_(B) = 10V,V_(c) = 20V,V_(D) = 15V The current in the resistance R_(1) will be