In the situation shown, resistance `R_(1),R_(2)` and `R_(3)` are in the ratio `3:2:1` , then

Show that if three slabs of thermal resistance R_(1), R_(2) and R_(3) are placed in contact, the thermal resistance of the compound slab is given by R=R_(1)+R_(2)+R_(3) .

When resistres of resistyences R_(1)R_(2) and R_(3) are connected in series , then the resistance R_(1) is given by R_(1) = R_(1) + R_(2) +R_(3) In this arrengement the current through each resister is same hut potential difference across then is difference When resitorce of resistance R_(1)R_(2) and R_(3) are connected in particle the effective resistance R_(p) is given by (1)/(R_(p)) = (1)/(R_(1)) + (1)/(R_(2)) + (1)/(R_(3)) In this arrangement , the potential difference across each resistance is but current through then is difference Read the above passage and answer the following question : (i) Why does the effective resistance increase in series ? (ii) Why does the effective resistance decrease in parallel ? (iii) What basic value are displayed by the above study ?

Two ideal batteries of emf V_(1)andV_(2) and these resistances R_(1),R_(2)andR_(3) are connected as shown in the figure . The current in resistance R_(2) would be zero if

Two ideal batteries of emf V_(1) and V_(2) and three resistance R_(1)R_(2) and R_(3) are connected The current in resistance R_(2) would be zero if

Three ammeters 1, 2, and 3 of resistances R_(1). R_(2) and R_(3) respectively are joined as shown. When some potential difference is applied across the terminals P and Q, their readings are I_(1), I_(2) and I_(3) , respectively. Then