There is a current of 40 ampere in a wire of {10^{ - 6}},{m^2} area of cross-section. If the number of free electron per {m^3}

Q: There is a current of $40$ ampere in a wire of ${10^{ - 6}}\,{m^2}$ area of cross-section. If the number of free electron per ${m^3}$ is ${10^{29}}$, then the drift velocity will be

b (b) ${V_d} = \frac{i}{{neA}} = \frac{{40}}{{{{10}^{29}} \times {{10}^{ - 6}} \times 1.6 \times {{10}^{ - 19}}}}$ $=$ $2.5 \times {10^{ - 3}}\,m/sec$.

SECTION - A [PHYSICS MCQ]

GSEB - English Medium

There is a current of $40$ ampere in a wire of ${10^{ - 6}}\,{m^2}$ area of cross-section. If the number of free electron per ${m^3}$ is ${10^{29}}$, then the drift velocity will be

A$1.25 × {10^3}\, m/s$
B$2.50 × {10^{ - 3}}\, m/s$
C$25.0 × {10^{ - 3}}\, m/s$
D$250 × {10^{ - 3}}\, m/s$

Easy

STD 11 Science
JEE
STD 12 - 3. current electricity
Physics

Download our app
and get started for free

Experience the future of education. Simply download our apps or reach out to us for more information. Let's shape the future of learning together!No signup needed.*

Download App

Similar Questions

1
The figure shows a circuit having eight resistances of $1 \Omega$ each, labelled $R_1$ to $R_8$, and two ideal batteries with voltages $\varepsilon_1=12 V$ and $\varepsilon_2=6 V$.

Which of the following statement($s$) is(are) correct?

$(A)$ The magnitude of current flowing through $R_1$ is $7.2 A$.

$(B)$ The magnitude of current flowing through $R_2$ is $1.2 A$.

$(C)$ The magnitude of current flowing through $R_3$ is $4.8 A$.

$(D)$ The magnitude of current flowing through $R_5$ is $2.4 A$.
View Solution
2
What will be the equivalent resistance between the two points $A$ and $D$ ............. $\Omega$
View Solution
3
Two square metal plates $A$ and $B$ are of the same thickness and material. The side of $B$ is twice that of $A$. These are connected as shown in series. If the resistances of $A$ and $B$ are denoted by $R_A$ and $R_B,$ then $(R_A/R_B)$ is
View Solution
4
Wheatstone bridge principle is used to measure the specific resistance $\left(S_1\right)$ of given wire, having length $L$, radius $r$. If $X$ is the resistance of wire, then specific resistance is: $S_1=X\left(\frac{\pi r^2}{L}\right)$. If the length of the wire gets doubled then the value of specific resistance will be :
View Solution
5
In order to measure the internal resistance $r_1$ of a cell of emf $E$, a meter bridge of wire resistance $R_0=50 \Omega$, a resistance $R_0 / 2$, another cell of emf $E / 2$ (internal resistance $r$ ) and a galvanometer $G$ are used in a circuit, as shown in the figure. If the null point is found at $l=72 cm$, then the value of $r_1=$ . . . . $\Omega$
View Solution
6
In the Wheatstone's bridge shown, $P = 2\,\Omega ,$ $Q = 3\,\Omega ,$ $R = 6\,\Omega $ and $S = 8\,\Omega $. In order to obtain balance, shunt resistance across '$S$' must be .............. $\Omega$
View Solution
7
For the circuit shown in the figure, the current $I$ will be .......$A$
View Solution
8
In a potentiometer circuit there is a cell of $e.m.f.$ $2\, volt$, a resistance of $5\, ohm$ and a wire of uniform thickness of length $1000\, cm$ and resistance $15\, ohm$. The potential gradient in the wire is
View Solution
9
In the circuit shown, what is the potential difference $V_{PQ}$? ................ $V$
View Solution
10
In the circuit shown below, the switch $S$ is connected to position $P$ for a long time so that the charge on the capacitor becomes $q _1 \mu C$. Then $S$ is switched to position $Q$. After a long time, the charge on the capacitor is $q _2 \mu C$.

($1$) The magnitude of $q_1$ is

($2$) The magnitude of $q _2$ is

Give the answer of question ($1$) and ($2$)
View Solution

Download our appand get started for free

Similar Questions

Download our app
and get started for free