Column - I gives certain physical terms associated with flow of current through a metallic conductor. Column-II gives some mathematical relations involving electrical quantities. Match column-I and column-II with appropriate relations.
Column - I
Column - II
(A)
Drift Velocity
(P)
$${m \over {n{e^2}p}}$$
(B)
Electrical Resistivity
(Q)
$$ne{\upsilon _d}$$
(C)
Relaxation Period
(R)
$${{eE} \over m}\tau $$
(D)
Current Density
(S)
$${E \over J}$$
A
(A)-(R); (B)-(Q); (C)-(S); (D)-(P)
B
(A)-(R); (B)-(S); (C)-(P); (D)-(Q)
C
(A)-(R); (B)-(S); (C)-(Q); (D)-(P)
D
(A)-(R); (B)-(P); (C)-(S); (D)-(Q)
2
NEET 2021
MCQ (Single Correct Answer)
+4
-1
Three resistors having resistances r1, r2 and r3 are connected as shown in the given circuit. The ratio $${{{i_3}} \over {{i_1}}}$$ of currents in terms of resistances used in the circuit is :
A
$${{{r_2}} \over {{r_1} + {r_3}}}$$
B
$${{{r_1}} \over {{r_2} + {r_3}}}$$
C
$${{{r_2}} \over {{r_2} + {r_3}}}$$
D
$${{{r_1}} \over {{r_1} + {r_2}}}$$
3
NEET 2020 Phase 1
MCQ (Single Correct Answer)
+4
-1
A resistance wire connected in the left gap of a metre bridge balances a 10 $$\Omega $$
resistance in the right gap at a point which divides the bridge wire in the ratio 3:2. If the length of the resistance wire is 1.5 m, then the length of 1 $$\Omega $$ of the resistance wire is :
A
$$1.0 \times {10^{ - 1}}m$$
B
$$1.5 \times {10^{ - 1}}m$$
C
$$1.5 \times {10^{ - 2}}m$$
D
$$1.0 \times {10^{ - 2}}m$$
4
NEET 2020 Phase 1
MCQ (Single Correct Answer)
+4
-1
The color code of a resistance is given below : The values of resistance and tolerance, respectively, are
