If the unknown Resistancee calculated without using the end correction is `R_(1)` and with using end corrections is `R_(2)` then (assume same end corection) .

If the unknown resistance calculated without using the end correction, is R_(1) and with using the end corrections is R_(2) then (assume same end correction at both ends)

What is meant by the end correction ?

Twelve wires of equal length and same cross-section are connected in the form of a cube. If the resistance of each of the wires is R, and the effective resistance between the two diagonal ends is R_(e) , then the ratio R/R_(e) is equal to __.

If the end correction of an open pipe is 0.8 cm, then the inner radius of that pipe will be

A meter bridge is setup as shown in figure, to determine an unknown resistance X using a standard 10Omega resistor. The galvanometer shows null point when tapping key is at 52 cm mark. The end correctiosnn are 1 cm and 2 cm respectively for the ends A and B . The determined value of X is

The circuit diagram given in the figure shown the experimental setup for the measurement of unknown resistance by using a metre bridge. The wire connected between the points P and Q(PQ = 100 cm) has uniform cross-sectional area and its resistivity is directly proportional to the distance from point P. Null point is obtained with the jockey J with R_1 and R_2 in the gaps. If R_1 and R_2 are interchanged, the jockey has to be displaced through a distance from the previous position along the wire to establish the null point. If the ratio of R_1/R_2=3 , the value of Delta (in cm) is: [Ignore any end corrections]

A meter bridge is set- up as shown in figure, to determine an unknown resistance X using a standard 10 Omega resistor. The galvanometer shows null point when tapping - key is at 52 cm mark. The end -corrections are 1 m and 2 cm respectively for the ends A and B . The determined values of X is . (a) 10.2 Omeaga (b) 10.6 Omega (c) 10.8 Omega (d) 11.1 Omega .

Two bars of same length and same cross-sectional area but of different thermal conductivites K_(1) and K_(2) are joined end to end as shown in the figure. One end of the compound bar it is at temperature T_(1) and the opposite end at temperature T_(2) (where T_(1) gt T_(2) ). The temperature of the junction is

In the adjoing figure P_(1) and P_(2) are the pressures in broad and narrow tubes with closed ends. Select the correct option

A constant voltage V_(0) is applied to a potentiometer of resistance R connected to an ammeter. A constant resistor r is connected to the sliding contact of the potentiometer and the fixed end of the potentiometer. If the reading of ammeter vary as the sliding contact is moved from one end of the potentiometer to the other. The resistance of ammeter is assumed to be negligible. Find the minimum reading of the Ammeter.