Every atom makes one free electron in copper. If 1.1 ampere current is flowing in the wire of copper having 1, mm diameter, then the

Q: Every atom makes one free electron in copper. If $1.1$ $ampere$ current is flowing in the wire of copper having $1\, mm$ diameter, then the drift velocity (approx.) will be (Density of copper $ = 9 \times {10^3}\,kg\,{m^{ - 3}}$ and atomic weight = $63$)

b (b) Density of $Cu = 9 \times {10^3}\,kg/{m^3}$ (mass of $1$ $m^3$ of $Cu$) ( $6.0 \times 10^{23}$ atoms has a mass = $63 \times 10^{-3}\, kg$ Number of electrons per $m^3$ are $ = \frac{{6.0 \times {{10}^{23}}}}{{63 \times {{10}^{ - 3}}}} \times 9 \times {10^3} = 8.5 \times {10^{28}}$ Now drift velocity $ = {v_d} = \frac{i}{{neA}}$ $ = \frac{{1.1}}{{8.5 \times {{10}^{28}} \times 1.6 \times {{10}^{ - 19}} \times \pi \times {{(0.5 \times {{10}^{ - 3}})}^2}}}$ $ = 0.1 \times {10^{ - 3}}\,m\,/sec$

SECTION - A [PHYSICS MCQ]

GSEB - English Medium

Every atom makes one free electron in copper. If $1.1$ $ampere$ current is flowing in the wire of copper having $1\, mm$ diameter, then the drift velocity (approx.) will be (Density of copper $ = 9 \times {10^3}\,kg\,{m^{ - 3}}$ and atomic weight = $63$)

A$0.3\,mm/\sec $
B$0.1\,mm/\sec $
C$0.2\,mm/\sec $
D$0.2\,cm/\sec $

Diffcult

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
$50\,\Omega $ and $100\,\Omega $ resistors are connected in series. This connection is connected with a battery of $2.4\, volts$. When a voltmeter of $100\,\Omega $ resistance is connected across $100\,\Omega $ resistor, then the reading of the voltmeter will be ............. $V$
View Solution
2
Two resistors $400\, \Omega$ and $800\, \Omega$ are connected in series across a $6 V$ battery. The potential difference measured by a voltmeter of $10\, k \Omega$ across $400\, \Omega$ resistor is close to$....V$
View Solution
3
There are two wires of the same length and of the same material and radii $r$ and $2r$ . The ratio of their specific resistance is
View Solution
4
A meter bridge set up as shown to determine end correction at $A$ and $B$. When a resistance of $15\ \Omega$ is used in left gap and of $20\ \Omega$ in right gap, then null point comes at a distance $42\ cm$ from $A$. When these resistances are interchanged null point comes at a distance $57\ cm$ from $A$. Values of end corrections are
View Solution
5
Infinite number of cells having $emf$ and internal resistance $\left( {E,r} \right)$, $\left( {\frac{E}{n},\frac{r}{n}} \right)$, $\left( {\frac{E}{{{n^2}}},\frac{r}{{{n^2}}}} \right)$, $\left( {\frac{E}{{{n^3}}},\frac{r}{{{n^3}}}} \right)$..... are connected in series in same manner across an external resistance of $\frac{{nr}}{{n + 1}}$ . Current flowing through the external resistor is
View Solution
6
A cell of internal resistance $1.5\,\Omega $ and of $e.m.f.$ $1.5\, volt$ balances $500\, cm$ on a potentiometer wire. If a wire of $15\,\Omega $ is connected between the balance point and the cell, then the balance point will shift
View Solution
7
The resistance of a wire is $5 \Omega$. It's new resistance in ohm if stretched to $5$ times of it's original length will be :
View Solution
8
A battery of $e.m.f.$ $10\, V$ and internal resistance $3\,\Omega $ is connected to a resistor as shown in the figure. If the current in the circuit is $0.5\, A$. then the resistance of the resistor will be ............. $\Omega$
View Solution
9
In the figure, the value of resistors to be connected between $C$ and $D$ so that the resistance of the entire circuit between $A$ and $B$ does not change with the number of elementary sets used is
View Solution
10
For the given circuit the current through battery of $6\,V$ just after closing the switch ' $S$ ' will be$.......A$.
View Solution

Download our appand get started for free

Similar Questions

Download our app
and get started for free