Physics, asked by adityasupekar9612, 2 months ago

Explain the specific heat capacity
of metal with digram.​

Answers

Answered by yashikak1403
1

Answer:

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Explanation:

To measure the specific heat capacity of a metal (solid block method)

This method is suitable for a metal which is a good thermal conductor, e.g., copper or aluminium.

A cylindrical block of the metal is drilled with two holes, one to receive an electric immersion heater and the other a thermometer. A little oil may be used in the holes to ensure good thermal contact. Heat losses may be reduced by standing the block on a slab of expanded polystyrene and covering its top with the same material. The lagging is completed by wrapping its sides with several thicknesses of 2 mm thick expanded polystyrene. The material sold in rolls for house wall insulation is suitable

for this purpose and, when cut to size, may be fastened with adhesive tape (image attached). The heater circuit is connected as shown but before inserting the heater into the block the rheostat should be adjusted for a suitable current (2 to 4 A may be suitable with a 12 V supply). The current is switched off and the heater allowed to cool before insertion in the block.

The temperature of the block is noted. The current is switched on and simultaneously the time is read from a seconds clock (alternatively a stopclock may be used). Readings of the voltmeter and ammeter are taken and the current kept constant by adjustment to the rheostat as necessary. After the temperature has risen by about 10 degrees, the time is noted and simultaneously the current is switched off. The final steady reading of the thermometer is taken, remembering that a slight delay may be necessary to ensure thermal equilibrium between heater and block. The block alone is weighed when cool, either before or after the experiment.

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Answered by khushbookri1
3

The specific heat is the amount of heat energy per unit mass required to raise the temperature by one degree Celsius. The relationship between heat and temperature change is usually expressed in the form shown below where c is the specific heat . Specific Heat Capacity Conversions: 1 Btu/(lb-°F) = 4186.8 J/(kg-°K)

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