Find the current in `10Omega` resistcance, `V_(1)` and source voltage `V_(s)` in the circuit shown in figure `(V_(S)=V_(A)-V_(B))`

Find V_(P)-V_(Q) in the circuit shown in figure.

In the circuit shown in figure value of V_(R) is

In the circuit shown in figure find V_(ab) at 1 s

What is the value of output voltage V_(0) in the circuit shown in the figure ?

Find the potential difference V_(a)-V_(b) in the circutis shown in figure

Find the potential difference V_(A)- V_(B) between points A and B of the circuit shown in figure.

Find the potential differnce V_(A)-V_(B) between points A and B of the circuit shown in. .

The circuit consists of resistors and ideal cells. I_(1) and I_(2) are current through branches indicated in the figure, V_(A) and V_(B) is the potential at points A and B on the circuit The value of V_(A) - V_(B) in volts is:

Find the equivalent resistance of the network shown in the figure between the points A and B if (i) V_(A) gt V_(B) (ii) V_(A) lt V_(B)

Graphical soluton of a two body head on collision A block A of mass m moving with a uniform velocity v_(0) strikes another identical block B kept at rest on a horizontal smooth surface as shown in the figure (i). We can conserve linear momentum. So mv_(0)=mv_(A)mv_(B) ( v_(A) and v_(B) are the velocities of the blocks after collision) :. v_(0)=v_(A)+v_(B) .........(i) If the collision is perfectly elastic 1/2 mv_(0)^(2)=1/2 mv_(A)^(2)+1/2 mv_(B)^(2) impliesv_(0)^(2)=v_(A)^(2)+v_(B)^(2) ......(ii) Both the above equation (i) and (ii) are plotted on v_(A)-v_(B) plane as shown in figure (ii). This plot can be used to find the unknowns v_(A) and v_(B) . For example the solution of the situation in figure (i) is v_(A)=0,v_(B)=v_(0) (point y in the plot) Because v_(A)=v_(0), v_(B)=0 (point x in the plot) is not physically possible. In a situation block A is moving with velocity 2m//s an strikes another identical block B kept at rest. The v_(A)-v_(B) plot for the situation is shown. m and l are the intersection points whose v_(A), v_(B) coordinaes are given in the figure. The coefficient of restitution of the collision is