The initial and final temperature of water as record by an observer are let ` theta_(1)40.6pm0.2^(@)Cdeltatheta_(1)=pm0.2"^(@)C`
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The initial and final temperature of water as recorded by an observer are (40.6 pm 0.2)^(@)C and (78.3 pm 0.3)^(@)C . Calculate the rise in temperature.

The initial and final temperatures of water as recorded by an observer are ( 40.6 +- 0.2)^(@) C and ( 78.9 +- 0.3 )^(@) C . Calculate the rise in temperature with proper error limits.

The initial and final temperatures of water in a container are observed as 16 +-0.6^(@)C and 56+-0.3^(@)C . What is the rise in the temperature of water.

The initial and final temperature of water were recorded as (56.3 pm 0.4) ^(@)C and (27.5 + 0.3) ^(@)C . Determine the fall in the temperature of water .

The initial and final temperatures of liquid in a container are observed to be 7.63 +- 0.4^(@) C and 67.7 +- 0.3 ^(@) C . Determine the fall in the temperature of the liquid.

The initial and final temperatures of a water bath are (18pm0.5).^(@)C and (40pm0.3).^(@)C . What is the rise in temperature of the path

The initial and final temperature are recorded as (40.6 +- 0.3)^(0)C and (50.7 +- 0.2)^(0)C . The rise in temperaute is

The initial and final temperatures of a liquied are measured to be (67.7 +- 0.2)^@C and (76.3 +- 0.3)^@C. Calculate the rise in temperature.

Figure shows a large tank of water at a constant temperature theta_(0) . and a small vessel containinng a mass m of water at an initial temperature theta(lttheta_(0). A metal rod of length L, area of cross section A and thermal conductivity K connect the two vessels. Find the time taken for the temperature of the water in the smaller vessel to become theta_(2)(theta_(1)lttheta_(2)lttheta_(0)) . Specific heat capacity of water is s and all other heat capacities are negligible.