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The specific heat capacity of iron is 0,45 J/g.K.
No. Specific heat capacity is 'normalized' with respect to mass, so it's a property of the substance, regardless of the mass of the sample.
There are several precautions that should be taken in specific heat capacity experiments: The sample should be of a known, uniform composition. The sample should be of a known, uniform size. The sample should be of a known, uniform shape. The sample should be clean and dry. The sample should be at the same temperature as the calorimeter. The calorimeter should be well insulated. The calorimeter should be of known heat capacity. The surroundings should be at a constant temperature.
5.00 g * 0.89 = 4.215 g Al, so 78 * 4.125 = 332.51 K
The specific gravity of urine varies from one individual to another. And whatever it happens to be, it doesn't depend on the volume of the sample.
Specific gravity is a characteristic of a substance. The size of the sample is irrelevant. The normal specific gravity of urine in healthy individuals ranges from 1.003 to 1.03 . The specific gravity of pure water is 1.00 .
3700
5120 j/g k is the specific heat capacity
sample size is the specific size of a thing like the how long or wide. while sample unit is the whole thing not referring to specific number size.
By using the definition of "specific heat". You add a certain amount of heat, and see how much the temperature increases. You also need to measure the sample's mass. Then divide the amount of heat by (mass x temperature increase).
The specific heat of substance A is greater than that for substance B. If both sample sizes are the same and they both start at the same temperature and equal amounts of heat are added to both these samples, substance A will have a lower temperature than substance B.
Cp sample = S.H. Sample x Cp water