A uniform copper wire carries a current i amperes and has p carriers per meter^3. The length of the wire is lambda meters and its

Q: $A$ uniform copper wire carries a current $i$ amperes and has $p$ carriers per meter$^3$. The length of the wire is $\lambda$ meters and its cross-section area is $s$ meter $^2$. If the charge on a carrier is $q$ coulombs, the drift velocity in $ms^{-1}$ is given by

b The current flowing through the wire is given by $I=n e A v$ Where I = current $\mathrm{n}=$ charge carrier current density $\mathrm{e}=$ charge on the carriers $A=$ cross sectional area $\mathrm{v}=$ drift velocity In the above example $l=$ current $=\mathrm{i}$ $\mathrm{n}=$ charge carrier current density $=\mathrm{p}$ $\mathrm{e}=$ charge on the carriers $=\mathrm{q}$ $A=$ cross sectional area $=s$ $\mathrm{v}=$ drift velocity $=\mathrm{v}$ hence $i=p q s v$ $\therefore v=\frac{i}{p q{s}}$

SECTION - A [PHYSICS MCQ]

GSEB - English Medium

$A$ uniform copper wire carries a current $i$ amperes and has $p$ carriers per meter$^3$. The length of the wire is $\lambda$ meters and its cross-section area is $s$ meter $^2$. If the charge on a carrier is $q$ coulombs, the drift velocity in $ms^{-1}$ is given by

A$i/\lambda sq$
B$i/psq$
C$psq/i$
D$i/ps\lambda q$

Medium

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

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