Question 1.4: Expressing Temperature Rise in Different Units During a heat...

The temperature rise of a system is to be expressed in different units.
Analysis This problem deals with temperature changes, which are identical in Kelvin and Celsius scales. Then,

\Delta T( K )=\Delta T\left({ }^{\circ} C \right)=10 K

The temperature changes in Fahrenheit and Rankine scales are also identical and are related to the changes in Celsius and Kelvin scales through Eqs.
1–11 and 1–14:

T( R )=1.8 T( K )

T\left({ }^{\circ} F \right)=1.8 T\left({ }^{\circ} C \right)+32

\Delta T( K )=\Delta T\left({ }^{\circ} C \right)

\Delta T( R )=\Delta T\left({ }^{\circ} F \right)

\Delta T( R )=1.8 \Delta T( K )=(1.8)(10)=18 R

and

\Delta T\left({ }^{\circ} F \right)=\Delta T( R )=18^{\circ} F

Discussion Note that the units °C and K are interchangeable when dealing with temperature differences.