Guys I need explanations for the following questions.
1) may/june 07 Paper 1
http://www.xtremepapers.me/CIE/index.php?dir=International%20A%20And%20AS%20Level/9702%20-%20Physics/&file=9702_s07_qp_1.pdf
Question no 37 and 40.
2) may/june 09 Paper 1
http://www.xtremepapers.me/CIE/index.php?dir=International%20A%20And%20AS%20Level/9702%20-%20Physics/&file=9702_s09_qp_1.pdf
Question no 5, 7 .
Q37) This is a tricky one. Electrical resistance of P - R - pl/A
Let's assume the cross-sectional area of the resistor P is A
Thus, R = px/A
Resistance of Q
Now, the resistance is the combined resistance of all the wires
Say for instance, the resistance one of those wires is px/a (a < A, p, because they're of the same material)
So as the wires are in parallel, the combined resistance => 1/r = 1/r1 + 1/r2 + 1/r3 + ...
= a/px + a/px + a/px + ....
1/r = na/px
r = px/na
Now, As the volumes of the materials used is the same for both resistors, and their length is the same, the cross-sectional area of resistor P
should be the sum of all the cross-sectional areas of the wires in resistor Q
Meaning, na = A
thus r = px/A = Resistance of resistor P
Answer : C
40) The final velocity depends on the acceleration. The one with the least acceleration has the lowest final velocity (v^2 = 2as)
Acceleration, a = F/m
F= EQ
E is constant because V and d are constant.
a = QE/m
E is constant, thus, a is lowest, when the Q/m of the particle is the lowest. That is with C, Li, 3/7
Answer : C
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5) Best to use elimination in these type of sums. The final displacement can't be zero, thus, you are left with C or D
It can't be C because it doesn't show "constant terminal velocity"
Answer : D
7) Well, to be honest, i thought the answer was C. Well, i'm not sure of A, but that's the answer. The second law deals with force being
the rate of change of velocity times mass, and the first law is about inertia (unless acted upon external force one).
