A wire of resistance 4 ,Omega is stretched to twice its original length. The resistance of stretched wire would be ........... Omega

Q: A wire of resistance $4 \,\Omega$ is stretched to twice its original length. The resistance of stretched wire would be ........... $\Omega$

c Resistance of a wire, $R=\rho \frac{l}{A}=4\,\Omega$ .... $(i)$ When wire is stretched twice, its new length be $l$. Then $l^{\prime}=2 l$ On stretching volume of the wire remains constant. $\therefore l A=l^{\prime} A^{\prime}$ where $A^{\prime}$ is the new cross-sectional area or $\quad A^{\prime}=\frac{l}{l^{\prime}} A=\frac{l}{2 l} A=\frac{A}{2}$ $\therefore \quad$ Resistance of the stretched wire is $R^{\prime} =\rho \frac{l^{\prime}}{A^{\prime}} =\rho \frac{2 l}{(A / 2)}=4 \rho \frac{l}{A}$ $=4(4 \,\Omega) =16\, \Omega (\text { Using }(\mathrm{i}))$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

A wire of resistance $4 \,\Omega$ is stretched to twice its original length. The resistance of stretched wire would be ........... $\Omega$

A$4$
B$8$
C$16$
D$2$

AIPMT 2013, Medium

STD 11 Science
NEET
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
A uniform wire of resistance $R$ is uniformly compressed along its length, until its radius becomes $n$ times the original radius. Now resistance of the wire becomes
View Solution
2
The figure shows a network of currents. The magnitude of currents is shown here. The current $I$ will be ........... $A$
View Solution
3
An electric bulb marked $40\, W$ and $200\, V$, is used in a circuit of supply voltage $100\, V$. Now its power is
View Solution
4
The three resistance of equal value are arranged in the different combinations shown below. Arrange them in increasing order of power dissipation.
View Solution
5
In the circuit shown in the figure $K_1$ is open. The charge on capacitor $C$ in steady state is $q_1$. Now key is closed and at steady state charge on $C$ is $q_2$. The ratio of charges $q_1/q_2$ is
View Solution
6
A potential difference is applied across the ends of a metallic wire. If the potential difference is doubled, then the drift velocity
View Solution
7
Four equal resistance dissipated $5 \,W$ of power together when connected in series to a battery of negligible internal resistance. The total power dissipated in these resistance when connected in parallel across the same battery would be ........... $W$
View Solution
8
Two batteries with e.m.f $12\ V$ and $13\ V$ are connected in parallel across a load resistor of $10\,\Omega$ . The internal resistances of the two batteries are $1\,\Omega$ and $2\,\Omega$ respectively. The voltage across the load lies between
View Solution
9
Consider a block of conducting material ofresistivity '$\rho$' shown in the figure. Current '$I$' enters at '$A$' and leaves from '$D$'. We apply superp osition principle to find voltage '$\Delta V$ ' developed between '$B$' and '$C$'. The calculation is done in the following steps:
$(i)$ Take current '$I$' entering from '$A$' and assume it to spread over a hemispherical surface in the block.
$(ii)$ Calculatefield $E(r)$ at distance '$r$' from $A$ by using Ohm's law $E = \rho j$, where j is the current per unit area at '$r$'.
(iii) From the '$r$' dependence of $E(r)$, obtain the potential $V(r)$ at $r$.
(iv) Repeat $(i), (ii)$ and $(iii)$ for current '$I$' leaving '$D$' and superpose results for '$A$' and '$D$'.

$\Delta V$ measured between $B$ and $C$ is
View Solution
10
This question has Statement $1$ and Statement $2.$ Of the four choices given after the Statements, choose the one that best describes the two Statements.

Statement $1 :$ The possibility of an electric bulb fusing is higher at the time of switching $ON.$

Statement $2:$ Resistance of an electric bulb when it is not lit up is much smaller than when it is lit up.
View Solution

Download our appand get started for free

Similar Questions

Download our app
and get started for free