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Current Electricity Practice Questions - DPP for JEE
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Page 1 1. (a) I = Potential difference across second cell = – = 0 R = 2. (a) hence R eq = 3/2; 3. (a) Let, we connect 24 cells in n rows of m cells, then if I is the current in external circuit then Page 2 1. (a) I = Potential difference across second cell = – = 0 R = 2. (a) hence R eq = 3/2; 3. (a) Let, we connect 24 cells in n rows of m cells, then if I is the current in external circuit then ...(1) For I to be maximum, (mr + nR) should be minimum. It is minimum for ...(2) So maximum current in external circuit is ...(3) here R =3, r = 0.5 so equation (2) become so n = 2, m = 12 4. (d) Applying Kirchhoff ’s rule in loop abcfa e 1 – (i 1 + i 2 ) R – i 1 r 1 = 0. 5. (b) Current, × 1.6 × 10 –19 = 0.66A towards right. 6. (d) From the curve it is clear that slopes at points A, B, C, D have following order A > B > C > D. And also resistance at any point equals to slope of the V-i curve. So order of resistance at three points will be R A > R B > R C > R D Page 3 1. (a) I = Potential difference across second cell = – = 0 R = 2. (a) hence R eq = 3/2; 3. (a) Let, we connect 24 cells in n rows of m cells, then if I is the current in external circuit then ...(1) For I to be maximum, (mr + nR) should be minimum. It is minimum for ...(2) So maximum current in external circuit is ...(3) here R =3, r = 0.5 so equation (2) become so n = 2, m = 12 4. (d) Applying Kirchhoff ’s rule in loop abcfa e 1 – (i 1 + i 2 ) R – i 1 r 1 = 0. 5. (b) Current, × 1.6 × 10 –19 = 0.66A towards right. 6. (d) From the curve it is clear that slopes at points A, B, C, D have following order A > B > C > D. And also resistance at any point equals to slope of the V-i curve. So order of resistance at three points will be R A > R B > R C > R D 7. (d) R net between AB = 8. (d) . But m = pr 2 ld , , Page 4 1. (a) I = Potential difference across second cell = – = 0 R = 2. (a) hence R eq = 3/2; 3. (a) Let, we connect 24 cells in n rows of m cells, then if I is the current in external circuit then ...(1) For I to be maximum, (mr + nR) should be minimum. It is minimum for ...(2) So maximum current in external circuit is ...(3) here R =3, r = 0.5 so equation (2) become so n = 2, m = 12 4. (d) Applying Kirchhoff ’s rule in loop abcfa e 1 – (i 1 + i 2 ) R – i 1 r 1 = 0. 5. (b) Current, × 1.6 × 10 –19 = 0.66A towards right. 6. (d) From the curve it is clear that slopes at points A, B, C, D have following order A > B > C > D. And also resistance at any point equals to slope of the V-i curve. So order of resistance at three points will be R A > R B > R C > R D 7. (d) R net between AB = 8. (d) . But m = pr 2 ld , , 9. (a) Consider an element part of solid at a distance x from left end of width dx. Resistance of this elemental part is, Current through cylinder is, I = Potential drop across element is, dV = I dR = 10. (a) The simplified circuit is Page 5 1. (a) I = Potential difference across second cell = – = 0 R = 2. (a) hence R eq = 3/2; 3. (a) Let, we connect 24 cells in n rows of m cells, then if I is the current in external circuit then ...(1) For I to be maximum, (mr + nR) should be minimum. It is minimum for ...(2) So maximum current in external circuit is ...(3) here R =3, r = 0.5 so equation (2) become so n = 2, m = 12 4. (d) Applying Kirchhoff ’s rule in loop abcfa e 1 – (i 1 + i 2 ) R – i 1 r 1 = 0. 5. (b) Current, × 1.6 × 10 –19 = 0.66A towards right. 6. (d) From the curve it is clear that slopes at points A, B, C, D have following order A > B > C > D. And also resistance at any point equals to slope of the V-i curve. So order of resistance at three points will be R A > R B > R C > R D 7. (d) R net between AB = 8. (d) . But m = pr 2 ld , , 9. (a) Consider an element part of solid at a distance x from left end of width dx. Resistance of this elemental part is, Current through cylinder is, I = Potential drop across element is, dV = I dR = 10. (a) The simplified circuit is We have to find I. Let potential of point P be 0. Potential at other points are shown in the figure apply Kirchoff’s current law at B where potential is assume to be x volt. ? x – 10 + 2x – 20 + x – 20 + 2x – 20 = 0 ? 6x = 70 ? volt ? 11. (c) In series, R s = nR In parallel, ? R s /R p = n 2 /1 = n 2 12. (c) By principle of symmetry and superposition, (Current in AB is due to division in current entering at A and current is due to current returning from infinity of grid).Read More
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