A) \[{{H}_{2}}=2{{H}_{1}}\]
B) \[{{H}_{2}}=\frac{{{H}_{1}}}{2}\]
C) \[{{H}_{2}}=\frac{{{H}_{1}}}{4}\]
D) \[{{H}_{2}}=4{{H}_{1}}\]
Correct Answer: A
Solution :
Key idea: Rate of heat flow is the ratio of heat transferred to the time interval. |
Rate of heat flow |
\[H=\frac{Q}{t}=\frac{KA({{\theta }_{1}}-{{\theta }_{2}})}{l}\] |
or \[H\propto \frac{A}{l}\] |
Since, dimensions of area \[(A)=[{{L}^{2}}]\] |
Dimensions of length \[(l)=[L]\] |
\[\therefore \] \[H\propto l\] |
or \[\frac{{{H}_{2}}}{{{H}_{1}}}=\frac{{{l}_{2}}}{{{l}_{1}}}=\frac{2{{l}_{1}}}{{{l}_{1}}}\] \[(\because {{l}_{2}}=2{{l}_{1}})\] |
or \[{{H}_{2}}=2{{H}_{1}}\] |
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