From the graph between current I and voltage V shown below, identify the portion corresponding to negative resistance

SECTION - A [PHYSICS MCQ]

GSEB - English Medium

From the graph between current $I$ and voltage $V$ shown below, identify the portion corresponding to negative resistance

A$AB$
B$BC$
C$CD$
D$DE$

AIPMT 1997, Easy

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

Share

art

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.*

Similar Questions

1
In a potentiometer experiment the balancing with a cell is at length $240\,cm$ . On shunting the cell with a resistance of $2\,\Omega $ , the balancing length becomes $120\, cm$ . The internal resistance of the cell is ................... $\Omega$
View Solution
2
In steady state the potential difference across the capacitor is $10\,\, V.$ Each resistance is of $3\,\Omega $. The cell is ideal. The $emf$ of the cell is .............. $\mathrm{V}$
View Solution
3
A wire of resistance $12\,ohms$ per meter is bent to form a complete circle of radius $10\, cm.$ The resistance between its two diametrically opposite points, $A$ and $B$ as shown in the figure is
View Solution
4
Find current through the branch $ad$ of the circuit shown in figure. :-............. $A$
View Solution
5
A $5\,^oC$ rise in temperature is observed in a conductor by passing a current. When the current is doubled the rise in temperature will be approximately ........... $^oC$
View Solution
6
When the power delivered by a $100\,volt$ battery is $40\,watts$ the equivalent resistance of the circuit is ........... $ohms$
View Solution
7
For a cylinder of radius $R$ current density $J =J_0 \frac{r}{R} $, where $J_0$ is a constant and $r$ is distance from axis. Calculate total current
View Solution
8
Sensitivity of potentiometer can be increased by
View Solution
9
A battery of internal resistance $4$ $\Omega$ is connected to the network of resistances as shown. In order to give the maximum power to the network, the value of $R$ (in $\Omega $) should be
View Solution
10
On interchanging the resistances, the balance point of a meter bridge shifts to the left by $10\ cm$. The resistance of their series combination is $1\ k\Omega$. How much was the resistance on the left slot before interchanging the resistances? .................. $\Omega$
View Solution