Fizzy_Cyst
Owner @ Sigma Science + Phys Goat
tbh, I didnt really read that question, lol.
Will have a re-read now
Will have a re-read now
Now that you mention the speed I remember it was intended to be about radio wavesI would still say D!
He used that experiment to measure the speed of the generated radio waves
BumpThese are my answers. What mark am I looking at?
1) b
2) d
3) b
4) a
5) d
6) d
7) a
8) d
9) b
10) a
11) b
12) a
13) b
14) c
15) a
16) d
17) b
18) c
19) c
20) a
Compare with Fizzy's answersBump
How do we know his are all right? Isn't 3 b?Compare with Fizzy's answers
He's a teacherHow do we know his are all right? Isn't 3 b?
Q12, (a) is most correct. Meissner effect doesn't have anything to do with crystal lattice structure or the balancing of any gravitational forces anyway i believe.1B
2D
3B <- using right hand rule this is what I got, I remember this experiment does rotate around the magnet
4A
5D
6C
7A
8D
9B
10C
11B
12D <- both a and d are correct, but a is not completely correct as it dosen't mention balanced forces.
13D
14A -< e=V/d so as d decreases, e increases
15B -< pretty sure this is wrong, could someone explain why though?
16D
17C -< missed the back emf thing, was too busy working out that it wasn't effect by the rotation
18C
19C
20B
I've got everything the same as you, but 13-C, and 20-B.1) b
2) d
3) a
4) a
5) d
6) c
7) a
8) d
9) b
10) c
11) b
12) a
13) d
14) b
15) a
16) d
17) b
18) c
19) c
20) a
20:a) can someone explain 7? the word insulator threw me off a...
b) how do you calculate the threshhold frequency for 20? I just picked d, I shouldve went with b cause I dont think theyll ask a question where both are right...
c) can someone also explain 17?
I agree that 3 should be b. Using the right hand rule the field lines are in the same direction (attracted) on the side closest to us and in oppisite directions (repelled) on the far side or the rod. Therefore it spins anticlockwise. I thing c was a distracter1B
2D
3B <- using right hand rule this is what I got, I remember this experiment does rotate around the magnet
4A
5D
6C
7A
8D
9B
10C
11B
12D <- both a and d are correct, but a is not completely correct as it dosen't mention balanced forces.
13D
14A -< e=V/d so as d decreases, e increases
15B -< pretty sure this is wrong, could someone explain why though?
16D
17C -< missed the back emf thing, was too busy working out that it wasn't effect by the rotation
18C
19C
20B
The answer to 15 is a. Force actually stays the same all the way around as the side of the coil is always 90 degrees to the field lines. We sometimes this that force gets less as the motor turns but is actually the turning force (torque) which gets less.1B
2D
3B <- using right hand rule this is what I got, I remember this experiment does rotate around the magnet
4A
5D
6C
7A
8D
9B
10C
11B
12D <- both a and d are correct, but a is not completely correct as it dosen't mention balanced forces.
13D
14A -< e=V/d so as d decreases, e increases
15B -< pretty sure this is wrong, could someone explain why though?
16D
17C -< missed the back emf thing, was too busy working out that it wasn't effect by the rotation
18C
19C
20B
No.I agree that 3 should be b. Using the right hand rule the field lines are in the same direction (attracted) on the side closest to us and in oppisite directions (repelled) on the far side or the rod. Therefore it spins anticlockwise. I thing c was a distracter