A fully charged capacitor has a capacitance ‘C’. It is discharged through a small coil of resistance wire embedded in a thermally insulated block of

Q: A fully charged capacitor has a capacitance $‘C’$. It is discharged through a small coil of resistance wire embedded in a thermally insulated block of specific heat capacity $‘s’$ and mass $‘m’$. If the temperature of the block is raised by ‘$\Delta T$’, the potential difference $‘V’$ across the capacitance is

b (b) $\frac{1}{2}C{V^2} = m.s.\Delta T$ $==>$ $V = \sqrt {\frac{{2ms\Delta T}}{C}} $

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

A fully charged capacitor has a capacitance $‘C’$. It is discharged through a small coil of resistance wire embedded in a thermally insulated block of specific heat capacity $‘s’$ and mass $‘m’$. If the temperature of the block is raised by ‘$\Delta T$’, the potential difference $‘V’$ across the capacitance is

A$\frac{{ms\Delta T}}{C}$
B$\sqrt {\frac{{2ms\Delta T}}{C}} $
C$\sqrt {\frac{{2mC\Delta T}}{s}} $
D$\frac{{mC\Delta T}}{s}$

AIEEE 2005, Medium

STD 11 Science
NEET
STD 12 - 2. Electric potential and capacitance
Physics

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