The circuit in figure is made of a homogeneous wire of uniform cross-section. 1234 is a square. Find the ratio `Q_(12)//Q_(34)` of the amounts of heat liberated per unit time in conductor 1-2 and 3-4

The charge q flowing in a conductor of uniform cross section, varies with time as q=alphat-bt^(2) . Then, the current

Considering a wire of non-uniform cross-section as shown.If the area of cross-section at A is double of the area of cross-section at point B.Ratio of heat energy dissipated in a unit volume per unit time at points A and B is

A gas took part in three thermal processes in which it is heated from the same initial state to the same final temperature. The process are shown in the P-V diagram by straight lines 1-2 , 1-3 and 1-4 . Q_(1) , Q_(2) and Q_(3) are amount of heat supplied to the gas in the process 1 to 2 , 1 to 3 , 1 to 4 . respectively.

If charge through a cross-section of a conductor at timetis q= 2t^(2) +3t+1 . Find the current at t = 2s.

A nichrome wire uniform cross-sectional area is bent to form a rectangular loop ABCD. Another nichrome wire of the same cross-section is connected to form the diagonal AC. Find out the ratio of the resistances across BD and AC if AB = 0.4 m and BC = 0.3 m.

Two ends of a rod of non uniform area of cross section are maintained at temperature T_(1) and T_(2) (T_(1)>T_(2)) as shown in the figure If l is heat current through the cross-section of conductor at distance x from its left face, then the variation of l with x is best represented by

Two infinite plates shown in cross-section in figure carry lamda amperes of current out of thepage per unit width of plate. Find the magnetic field at points P and Q .

The figure is made of a uniform wire and represents a regular five pointed star. The resistance of a section EL is r 2 ohm. Find the resistance in ohm of the star across F and C. ( "sin"18^(@)=1/-3)

Four wires of equal length 2 m are arranged as shown in the figure. Wires , 2, 3 and 4 are of equal cross-sectional area and wire 1 is of half the cross section of these wires. By how much distance pointer at point 5 must be moved to get null point ?

A circular ring (centre O) of radius a, and of uniform cross section is made up of three different metallic rods AB, BC and CA (joined together at the points A, B and C in pairs) of thermal conductivityies alpha_1 , alpha_2 and alpha_3 respectively (see diagram). The junction A, B and C are maintained at the temperatures 100^@C , 50^@C and 0^@C , respectively. All the rods are of equal lengths and cross sections. Under steady state conditions, assume that no heat is lost from the sides of the rods. Let Q_1 , Q_2 and Q_3 be the rates of transmission of heat along the three rods AB, BC and CA. Then