Two parallel plates separated by a distance of 5,mm are kept at a potential difference of 50,V. A particle of mass {10^{

Q: Two parallel plates separated by a distance of $5\,mm$ are kept at a potential difference of $50\,V.$ A particle of mass ${10^{ - 15}}\,kg$ and charge ${10^{ - 11}}\,C$ enters in it with a velocity ${10^7}\,m/s.$ The acceleration of the particle will be

a (a) $a = \frac{{qE}}{m} = \frac{q}{m}\left( {\frac{V}{d}} \right)$$ = \frac{{{{10}^{ - 11}}}}{{{{10}^{ - 15}}}} \times \frac{{50}}{{5 \times {{10}^{ - 3}}}} = {10^8}\,m/se{c^2}$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

Two parallel plates separated by a distance of $5\,mm$ are kept at a potential difference of $50\,V.$ A particle of mass ${10^{ - 15}}\,kg$ and charge ${10^{ - 11}}\,C$ enters in it with a velocity ${10^7}\,m/s.$ The acceleration of the particle will be

A${10^8}\,m/{s^2}$
B$5 \times {10^5}\,m/{s^2}$
C${10^5}\,m/{s^2}$
D$2 \times {10^3}\,m/{s^2}$

Easy

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

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