A steady current $I$ flows through a wire of radius $r$, length $L$ and resistivity $\rho$. The current produces heat in the wire. The rate of heat loss in a wire is proportional to its surface area. The steady temperature of the wire is independent of
KVPY 2012, Medium
Download our app for free and get started
(a)
Given, heat loss per second $Q_1$ through wire is proportional to surface area of wire.
$\Rightarrow \quad Q_1=k \pi r^2 L(\Delta T)$
where, $k=$ proportionality constant
and $\Delta T=$ temperature difference of wire and surroundings.
and heat generated per second is
$Q_2=I^2 R=\frac{I^2 \rho L}{\pi r^2}$
In steady state, $Q_1=Q_2$
$\Rightarrow k \pi r^2 L(\Delta T)=\frac{I^2 \rho L}{\pi r^2} \Rightarrow \Delta T=\frac{I^2 \rho}{k \pi^2 r^4}$
$\therefore$ Steady state temperature is independent of length of wire.
Download our appand 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
- 1In the following star circuit diagram (figure), the equivalent resistance between the points $A$ and $H$ will be ..............$r$View Solution
- 2Calculate equivalent resistance across $A-B$ ............... $\Omega$View Solution
- 3Which of the four resistances $P, Q, R$ and $S$ generate the greatest amount of heat when a current flows from $A$ to $B$ ?View Solution
- 4A wire of length $5\,m$ and radius $1\,mm$ has a resistance of $1\, ohm$. What length of the wire of the same material at the same temperature and of radius $2\,mm$ will also have a resistance of $1\, ohm$ .............. $m$View Solution
- 5In the circuit shown in the adjoining figure, the reading of ammeter $A$ is ................ $\mathrm{A}$View Solution
- 6Four identical cells of $EMF$ $E$ and internal resistance $r$ are connected as shown in figure, find terminal voltage across any one cellView Solution
- 7The equivalent resistance of the circuit shown in the figure is ............. $\Omega$View Solution
- 8The two bulbs as in the above question are connected in series to a $200\, volt$ line. ThenView Solution
- 9A $2\, volt$ battery, a $15\,\Omega $ resistor and a potentiometer of $100\, cm$ length, all are connected in series. If the resistance of potentiometer wire is $5\,\Omega $, then the potential gradient of the potentiometer wire is ............... $V/cm$View Solution
- 10The terminal potential difference of a cell is greater than its $e.m.f.$ when it isView Solution