I need help with the following pls
W06 Q25
S06 Q9 & Q33
S07 Q23
W07 Q35
S08 Q6 & Q12
W09 P11 Q17 Why is it C and not D
Sorry for all the questions but these are all i have, thanx for any help, rly appreciated
Nov 06 No 25From X to Y, there is 1.5 cycle. This implies that X is 1.5T ahead of Y.
T is taken to be 2pie.
Phase difference = 1.5 x 2pie = 3pie. Hence n = 3.
Answer is
CJun 06 p19. It says that the object moves up and down. So initially it is found at the bottom from where it is released. It's velocity increases until it passes the equilibrium position and then decreases to zero when it reaches its maximum at the top. This is point B.
The question asks the velocity at the lowest point of the motion.
Lowest point => V = 0ms
-1Since B shows the highest point, D is bound to be the answer. As the ball comes back to its initial lowest position, its velocity comes back to zero.
Answer is
D33. A p.d of 12V is applied across P and Q. This implies p.d across both PXQ and PYQ is 12V since they are connected in parallel.
We need to find p.d in each resistor.
Along PXQ, p.d across 500 Ohm resistor is given by
R500/Rtotal x p.dp.d acorss 500 Ohm resistor will be 500/1500 x 12 = 4V. Therefore p.d across 1000 Ohm resistor will be (12 - 4) = 8V
Use the same formula(in bold) and you'll find p.d across 2000 Ohm resistor to be 8V while that across 1000 Ohm resistor to be 4V.
Hence p.d across X and Y = 8 - 4 =
4V (using either 500 and 2000 Ohms resistor or the two 1000 Ohms resistor)
Answer is
BJun 07 No 23Am not sure about the explanation. So i'll proceed by elimination.
A :
The speed is maximum at P -----> False since at maximum positions v= 0 ms
-1.
B :
The displacement at Q is always zero -----> this is not true since it is zero only at that instant. It will increase or decrease in other cases.
C :
The energy at R is entirely kinetic. ----> At maximum or minimum positions, energy is rather entirely potential and zero kinetic.
D :
The acceleration at S is maximum. -----> Magnitude of acceleration should have been constant throughout the wave. Constant but maximum.
I find D as the most appropriate answer but am not sure if the reason I provided for D is valid.
Answer is
DNov 07 No 35From diagram 1, we can note that both the voltmeter and the battery are connected in parallel to the system of resistors.
This is also the case in diagram 2. Both the voltmeter and the battery are still connected in parallel to the system of resistors. So both diagrams are the same and will have same readings.
Voltmeter reading is zero since all resistors being identical will draw same amount of voltage. Hence p.d will come out to be zero.
Answer is
AJun 08 p16. Acceleration is always perpendicular to its motion => Here we are talking about
centripetal acceleration.Hence
speed remains constant but the velocity is said to be continuously changing since its
direction changes. However its magnitude is constant.
Answer is
C.
12. Using Newton's 2nd law of motion.
Resultant force = ma
Driving force - Resistive force = ma
2000 - F
r = 750(2) -----> F
r =
500 N or 0.5 kNAnswer is
ANov 09 p11 No 17Nope. It can't be
D since ice is a solid and has a compact shape with strong intermolecular forces of attraction between its molecules. Therefore they won't be having same potential energies. So total energies won't be the same either.
The answer is
C because K.E is proportionl to temperature and both the water and the ice are at 0
oC.
Hope it helps
