Seven rods A, B, C, D, E, F and G are jo...

Seven rods A, B, C, D, E, F and G are joined as shown in figure. All the rods have equal cross-sectional area A and length l. The thermal conductivities of the rods are `K_(A)=K_(C)=K_(0)`, `K_(B)=K_(D)=2K_(0)`, `K_(E)=3K_(0)`, `K_(F)=4K_(0)` and `K_(G)=5K_(0)` . The rod E is kept at a constant temperature `T_(1)` and the rod G is kept at a constant temperature `T_(2)``(T_(2)gtT_(1))` . (a) Show that the rod F has a uniform temperature `T=(T_(1)+2T_(2))//3` . (b) Find the rate of heat flowing from the source which maintains the temperature `T_(2)` .

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The correct Answer is:

`(3K_(0)A(theta_(2)-theta_(1)))/(8l)`

`(R_(A))/(R_(C)) = (k_(C))/(k_(A)) = (1)/(2)`
& `(R_(B))/(R_(D)) = (k_(D))/(k_(B)) = (1)/(2`
`:. (R_(A))/(R_(C)) = (R_(B))/(R_(D)) rArr` Balanced `W.S.B`.
`rArr ((theta_(2)-theta))/(R_(B)) = (theta_(2)-theta_(1))/(R_(A)+R_(B)) rArr theta =(3 theta_(1)+theta_(2))/(4)`
`rArr` Rate of heat flow from the source
`=((theta_(2)-theta_(1)))/((((R_(A)+R_(B))(R_(C)+R_(D)))/(R_(A)+R_(B+R_(C)+R_(D)))))`
`= ((theta_(2)-theta_(1)))/(((((1)/(k_(A))+(1)/(K_(B)))((1)/(k_(C))+(1)/(k_(D)))(l)/(A))/((1)/(k_(A))+(1)/(k_(B))+(1)/(k_(C))+(1)/(k_(D)))))`
`=(3k_(0)A(theta_(2)-theta_(1)))/(8l)`

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Two bars of same length and same cross-sectional area but of different thermal conductivites K_(1) and K_(2) are joined end to end as shown in the figure. One end of the compound bar it is at temperature T_(1) and the opposite end at temperature T_(2) (where T_(1) gt T_(2) ). The temperature of the junction is

`(K_(1)T_(1)+K_(2)T_(2))/(K_(1)+K_(2))`

`(K_(1)T_(2)+K_(2)T_(1))/(K_(1)+K_(2))`

`(K_(1)(T_(1)+T_(2)))/(K_(1)+K_(2))`

`K_(2)(T_(1)+T_(2))/(K_(1))`

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