A lagged stick of cross section area 1 c...

A lagged stick of cross section area `1 cm^(2)` and length `1`m is initially at a temperature of `0^(@)C`. It is then kept between `2` reservoirs of temperature `100^(@)C "and" 0^(@)C`. Specific heat capacity is `10J//kg^(@)C` and linear mass density is `2kg//m` . Find
(i) Temperature gradient along the rod in steady state
(ii) Total heat absorbed by the rod to reach steady state

Text Solution

Verified by Experts

The correct Answer is:

`-100^(@)C//m , (ii) 1000J`

(i) Temperature gradient = `(T_(1) - T_(2))/(l) = (100-0)/(1) = 100^(@)C//m`
(ii) Steady state temperature of element dx: `T = 100(1-x)`
Heat absorbed by the element to reach steady state. `dQ = "(dm)s" DeltaT = (gammadx)s(T-0)`
`implies dQ = 20[100(1-x)]dx`
Total heat absorbed by the rod `Q= intdQ = 2000 underset(0)overset(1)int(1-x)dx = 1000J`

Topper's Solved these Questions

GEOMETRICAL OPTICS
ALLEN|Exercise EXERCISE - 04 (B)|15 Videos
GEOMETRICAL OPTICS
ALLEN|Exercise EXERCISE - 05 (A)|73 Videos
GEOMETRICAL OPTICS
ALLEN|Exercise Comprehension Based Questions|66 Videos
CURRENT ELECTRICITY
ALLEN|Exercise EX.II|66 Videos
GRAVITATION
ALLEN|Exercise EXERCISE 4|9 Videos

Similar Questions

Explore conceptually related problems

Calculate the heat energy required to raise the temperature of 2 kg of water from 10^@ C to 50^@ C. Specific heat capacity of water is 4200 J kg^(-1) K^(-1) .

A conducting cylindrical rod of uniform cross-sectional area is kept between two large chambers which are at temperatures 100^(@) C and 0^(@) C, respectively. The cconductivety of the rod increases with x, where x is distance from 100^(@) C end. The temperature profile of the rod in steady -state will be as

A wire of area of cross -section 3m m^(2) breaks under a force of 225N. Find the rise in temperature of the wire at the time of breaking. Given Y =117 Gpa . Density of the wire = 8930 kg//m^(3) .Specific heat capacity = 380 J kg^(-1) k^(-1)

Calculate the amount of heat energy required to raise the temperature of 100 g of copper from 20^@ C to 70^@ C. Specific heat capacity of copper = 390 J kg^(-1) K^(-1)

The ends of a metre stick are maintain at 100^(@)C and 0^(@)C . One end of a rod is maintained 25^(@)C . Where should its other end be touched on the metre stick so that there is no heat current in the rod in steady state?

The two rods show in figure have identical geometrical dimension.. They are in contact with two heat baths at temperature 100^(@)C . And 0^(@)C . The temperature of the junction is 70^(@)C . Find the temperature of the junction if the rods are interchanged.

Two rods of similar area of cross section and length are joined as shown in the figure. The ratio of their thermal conductivity is 2:3. The free ends are maintained at 100^(@)C and 0^(@)C respectivley. THE temperature at junction in steady state is

The temperature gradient in a rod of 0.5 m length is 80^(@)C//m . It the temperature of hotter end of the rod is 30^(@)C , then the temperature of the cooler end is

Temperature of hot end and cold end of a rod, which is in steady state are 100^(@)C and 40^(@)C respectively. The area of cross section of rod and its thermal conductivity are uniform. The temperature of rod at its mid point is (Assume no heat loss thorugh lateral surface)

(a) An iron ball requires 5000 J heat energy to raise its temperature by 10^@ C. Calculate the heat capacity of the iron ball. (b) If mass of ball is 1.1 kg, find the specific heat capacity of iron.

ALLEN-GEOMETRICAL OPTICS-EXERCISE - 04 (A)

An electric heater is used in a room of total wall area 137m^(2) to ma...
Text Solution
|
The figure shows the face and interface temperature of a composite sla...
Text Solution
|
A lagged stick of cross section area 1 cm^(2) and length 1m is initial...
Text Solution
|
Calculate the temperature of the black body from given graph.
Text Solution
|
Two bodies A and B have thermal emissivities of 0.01 and 0.81 respecti...
Text Solution
|
In a industrical process 10 kg of water per hour is to be heated from ...
Text Solution
|
Aluminium container of mass of 10 g contains 200 g of ice at-20^(@)C. ...
Text Solution
|
The temperature of equal masses of three different liquids A,B and C a...
Text Solution
|
A lead bullet just melts when stopped by an obstacle. Assuming that 25...
Text Solution
|
The temperature of 100 g of water is to be raised from 24^@C to 90^@C ...
Text Solution
|
Answer the following questions based on the p-T phase diagram of carbo...
Text Solution
|
Two glass bulbs of equal volume are connected by a narrow tube and are...
Text Solution
|
A thin tube of uniform cross-section is sealed at both ends. It lies h...
Text Solution
|
A closed container of volume 0.02m^2 contains a mixture of neon and a...
Text Solution
|
An oxygen cylinder having volumn 30 litre shows a initial gauge pressu...
Text Solution
|
Figure shows plot of PV//T versus P"for" 1.00 xx 10^(-3) kg of oxygen ...
Text Solution
|
For a gas (R)/(C(P)) = 0.4. For this gas calculate the following (i) A...
Text Solution
|
1 g mole of oxygen at 27^@ C and 1 atmosphere pressure is enclosed in...
Text Solution
|
An ideal gas in enclosed in a tube and is held in the vertical positio...
Text Solution
|
Two moles of helium gas undergo a cyclic process as shown in Fig. Assu...
Text Solution
|