A battery of internal resistance one ohm and emf 3,volt sends a current through 1,metre of uniform wire of resistance 5,Omega . The pole of

Q: A battery of internal resistance one ohm and $emf$ $3\,volt$ sends a current through $1\,metre$ of uniform wire of resistance $5\,\Omega $. The pole of the cell of $emf$ $1.4\,volt$ are connected to two points on the wire so that no current passes through this cell. Then, the potential gradient of the wire is

b Current through the wire of $5$ $\mathrm{ohm}$ $=\frac{\mathrm{E}}{\mathrm{r}+\mathrm{R}}=\frac{3}{1+5}=0.5 \mathrm{\,A}$ Potential cifference actioss the wire of $5 \Omega=0.5 \times 5=2.5 \mathrm{\,V}$ Length of wire $=1 \mathrm{\,m}$ $\therefore $ Potential gradient $=2.5 \mathrm{\,V} / \mathrm{m}$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

A battery of internal resistance one ohm and $emf$ $3\,volt$ sends a current through $1\,metre$ of uniform wire of resistance $5\,\Omega $. The pole of the cell of $emf$ $1.4\,volt$ are connected to two points on the wire so that no current passes through this cell. Then, the potential gradient of the wire is

A$2.5\,volt$
B$2.5\,volt/metre$
C$3\,volt/metre$
D$1.5\,volt/metre$

Medium

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

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