In a steady state, the temperature at the end A and B of 20,cm long rod AB are 100,^oC and 0,^oC respectively. The temperature of

Q: In a steady state, the temperature at the end $A$ and $B$ of $20\,cm$ long rod $AB$ are $100\,^oC$ and $0\,^oC$ respectively. The temperature of a point $9\,cm$ from $A$ is....... $^oC$

b $\mathrm{H}=\frac{100-0}{\mathrm{R}_{\mathrm{AH}}}=$ Heat current $=\frac{100}{\mathrm{R}_{\mathrm{AB}}}$ $100-\theta_{\mathrm{C}}=\mathrm{H} \cdot \mathrm{R}_{\mathrm{AC}}=\frac{100}{\mathrm{R}_{\mathrm{AB}}} \cdot \mathrm{R}_{\mathrm{AC}}$ $=\frac{100 \times 9}{20}=45$ $\therefore \quad \theta_{\mathrm{C}}=55^{\circ} \mathrm{C}$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

In a steady state, the temperature at the end $A$ and $B$ of $20\,cm$ long rod $AB$ are $100\,^oC$ and $0\,^oC$ respectively. The temperature of a point $9\,cm$ from $A$ is....... $^oC$

A$45$
B$55$
C$5$
D$65$

Medium

STD 11 Science
NEET
STD 11 - 10.2. transmission of heat
Physics

Download our app
and 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.*

Download App

Similar Questions

1
If the initial temperatures of metallic sphere and disc, of the same mass, radius and nature are equal, then the ratio of their rate of cooling in same environment will be
View Solution
2
A body cools in $7$ minutes from $60^{\circ}\,C$ to $40^{\circ}\,C$. The temperature of the surrounding is $10^{\circ}\,C$. The temperature of the body after the next $7$ minutes will be
View Solution
3
A copper pipe of length $10 \,m$ carries steam at temperature $110^{\circ} C$. The outer surface of the pipe is maintained at a temperature $10^{\circ} C$. The inner and outer radii of the pipe are $2 \,cm$ and $4 \,cm$, respectively. The thermal conductivity of copper is $0.38 kW / m /{ }^{\circ} C$. In the steady state, the rate at which heat flows radially outward through the pipe is closest to ............. $\,kW$
View Solution
4
A black body at a temperature of $127°C$ radiates heat at the rate of $1 cal/cm^2 × sec$. At a temperature of $527°C$ the rate of heat radiation from the body in ($cal/cm^2 × sec$) will be
View Solution
5
Objects $A$ and $B$ that are initially separated from each other and well isolated from their surroundings are then brought into thermal contact. Initially $T_A= 0^oC$ and $T_B = 100^oC$. The specific heat of $A$ is less than the specific heat of $B$. After some time, the system comes to an equilibrium state. The final temperatures are :
View Solution
6
The energy emitted per second by a black body at ${27^o}C$ is $10\;J$. If the temperature of the black body is increased to ${327^o}C$, the energy emitted per second will be ......... $J$
View Solution
7
Four identical rods of same material are joined end to end to form a square. If the temperature difference between the ends of a diagonal is ${100^o}C$, then the temperature difference between the ends of other diagonal will be ........ $^oC$
View Solution
8
Certain substance emits only the wavelengths ${\lambda _1},\;{\lambda _2},\;{\lambda _3}$ and ${\lambda _4}$ when it is at a high temperature. When this substance is at a colder temperature, it will absorb only the following wavelengths
View Solution
9
Good absorbers of heat are
View Solution
10
A slab consists of two parallel layers of copper and brass of the same thickness and having thermal conductivities in the ratio $1 : 4$ . If the free face of brass is at ${100^o}C$ and that of copper at $0^\circ C $, the temperature of interface is ........ $^oC$
View Solution

Download our appand get started for free

Similar Questions

Download our app
and get started for free