MedVision ad

Section I - Multiple Choice (3 Viewers)

someth1ng

Retired Nov '14
Joined
Sep 18, 2010
Messages
5,558
Location
Adelaide, Australia
Gender
Male
HSC
2012
Uni Grad
2021
Here is my MC answers:
1. D
2. A
3. C
4. B
5. C
6. C
7. B
8. A
9. B
10. D
11. C
12. A
13. B
14. D
15. D
16. C
17. B
18. C
19. D
20. A

Q19: I actually believe that it should be C - low electrical resistance.
Q20: To said to detect thermal radiation, this means that you use the wavelength that will allow the most radiation to be detected. Using one that is a peak means that less light is detected and hence, less sensitive and hence, less suitable.
 
Last edited:

kastle

New Member
Joined
Feb 1, 2011
Messages
4
Gender
Male
HSC
2012
I had a problem with the Transformers Question, I can't remember which question number it was. I remember that it needed to step down a voltage from 20 to 2 so you needed the fraction of 2/20 or 1/10. So therefore the Primary coil needed to be greater than the secondary coil, Which ruled out A, and D. B was 20 and 3 and C was 20 and 10. Which don't fit either.

Can someone explain where my logic took a turn.
 

mickstarify

Member
Joined
Nov 9, 2011
Messages
69
Location
Parramatta
Gender
Male
HSC
2012
Here is my MC answers:
1. D
2. A
3. C
4. B
5. C
6. C
7. B
8. A
9. B
10. D
11. C
12. A
13. B
14. D
15. D
16. C
17. B
18. C
19. D
20. A

To said to detect thermal radiation, this means that you use the wavelength that will allow the most radiation to be detected. Using one that is a peak means that less light is detected and hence, less sensitive and hence, less suitable.
14 was B, remember emf is change in flux over time, we can see for the first bit it is increasing, so our emf graph should be positive at the beginning
 

someth1ng

Retired Nov '14
Joined
Sep 18, 2010
Messages
5,558
Location
Adelaide, Australia
Gender
Male
HSC
2012
Uni Grad
2021
Change in gpe is always positive.
Induced emf is in opposite direction. Lenz's law.
I think the back emf has to be smaller because there needs to be a constant supply emf for the motor to turn in a constant rotation.
For gpe the radius is not squared...
1. Wrong.
2. 14 is D.
3. No, the back emf=supply emf - They said it was IDEAL.
4. It is not GPE, it said FORCE.
 

EinstenICEBERG

Einstein V2
Joined
Apr 7, 2011
Messages
220
Gender
Male
HSC
2014
Here is my MC answers:
1. D
2. A
3. C
4. B
5. C
6. C
7. B
8. A
9. B
10. D
11. C
12. A
13. B
14. D
15. D
16. C
17. B
18. C
19. D
20. A

Q19: I actually believe that it should be C - low electrical resistance.
Q20: To said to detect thermal radiation, this means that you use the wavelength that will allow the most radiation to be detected. Using one that is a peak means that less light is detected and hence, less sensitive and hence, less suitable.
19. I got C too.. but after thinking about it.. THE electrical resistance must be HIGH, thus it provides more thermal energy, if it were low, the eddy current would take a while to warm dat shit up. feel me?
 

EinstenICEBERG

Einstein V2
Joined
Apr 7, 2011
Messages
220
Gender
Male
HSC
2014
I had a problem with the Transformers Question, I can't remember which question number it was. I remember that it needed to step down a voltage from 20 to 2 so you needed the fraction of 2/20 or 1/10. So therefore the Primary coil needed to be greater than the secondary coil, Which ruled out A, and D. B was 20 and 3 and C was 20 and 10. Which don't fit either.

Can someone explain where my logic took a turn.
for some reason, i think if u read it.. primary must be the output and secondary must be the input, therefore it is actually 2/20 = 1/10 , thus D: 3:30 = 1:10
 

EinstenICEBERG

Einstein V2
Joined
Apr 7, 2011
Messages
220
Gender
Male
HSC
2014
No, emf=-d(flux)/dt
no idea what yr talking about cuz im not smart, but theres a golden rule that i use to find the answer to 14 which is D:

if the magnetic flux is 0 > EMF IS MAXIMUM and if magnetic flux is magnetic > EMF IS 0

THANKS!
 

someth1ng

Retired Nov '14
Joined
Sep 18, 2010
Messages
5,558
Location
Adelaide, Australia
Gender
Male
HSC
2012
Uni Grad
2021
no idea what yr talking about cuz im not smart, but theres a golden rule that i use to find the answer to 14 which is D:

if the magnetic flux is 0 > EMF IS MAXIMUM and if magnetic flux is magnetic > EMF IS 0

THANKS!
I'd understand if people make the mistake choosing B because they forget that the induced emf is NEGATIVE of the change of flux over change of time.
 

deswa4

New Member
Joined
Oct 25, 2012
Messages
20
Gender
Undisclosed
HSC
N/A
Here is my MC answers:
1. D
2. A
3. C
4. B
5. C
6. C
7. B
8. A
9. B
10. D
11. C
12. A
13. B
14. D
15. D
16. C
17. B
18. C
19. D
20. A

Q19: I actually believe that it should be C - low electrical resistance.
Q20: To said to detect thermal radiation, this means that you use the wavelength that will allow the most radiation to be detected. Using one that is a peak means that less light is detected and hence, less sensitive and hence, less suitable.
I think all your answers are right, except 20 (B). 19 is indeed D because a high AC voltage means greater change in flux (more eddy currents), and high electrical resistance in the pot base means greater heat developed (as P= I^2R).
 

brianphamm

Member
Joined
Sep 12, 2011
Messages
40
Gender
Male
HSC
2012
Here is my MC answers:
1. D
2. A
3. C
4. B
5. C
6. C
7. B
8. A
9. B
10. D
11. C
12. A
13. B
14. D
15. D
16. C
17. B
18. C
19. D
20. A

Q19: I actually believe that it should be C - low electrical resistance.
Q20: To said to detect thermal radiation, this means that you use the wavelength that will allow the most radiation to be detected. Using one that is a peak means that less light is detected and hence, less sensitive and hence, less suitable.
Where did you get thermal radiation info from? And why have low electrical resistance?
 

brianphamm

Member
Joined
Sep 12, 2011
Messages
40
Gender
Male
HSC
2012
I think all your answers are right, except 20 (B). 19 is indeed D because a high AC voltage means greater change in flux (more eddy currents), and high electrical resistance in the pot base means greater heat developed (as P= I^2R).
+1 I Agree
 

brianphamm

Member
Joined
Sep 12, 2011
Messages
40
Gender
Male
HSC
2012
I'd understand if people make the mistake choosing B because they forget that the induced emf is NEGATIVE of the change of flux over change of time.
I believe the negative sign accounts for Lenz's Law. I don't think it means negative EMF. It'll turn negative once the coil has rotated 180 degrees.
 

someth1ng

Retired Nov '14
Joined
Sep 18, 2010
Messages
5,558
Location
Adelaide, Australia
Gender
Male
HSC
2012
Uni Grad
2021
I think all your answers are right, except 20 (B). 19 is indeed D because a high AC voltage means greater change in flux (more eddy currents), and high electrical resistance in the pot base means greater heat developed (as P= I^2R).
I'm quite sure if you pick high resistance, smaller currents are also induced and hence less heat but I'm not sure. It might well be 19D.

12 is A because you need to choose one that is sensitive to all thermal radiation emitted.
 

someth1ng

Retired Nov '14
Joined
Sep 18, 2010
Messages
5,558
Location
Adelaide, Australia
Gender
Male
HSC
2012
Uni Grad
2021
I believe the negative sign accounts for Lenz's Law. I don't think it means negative EMF. It'll turn negative once the coil has rotated 180 degrees.
Check Wikipedia (yes, seriously) for Faraday's law of induction: it says "The induced electromotive force in any closed circuit is equal to the negative of the time rate of change of the magnetic flux through the circuit."
 
Last edited:

EinstenICEBERG

Einstein V2
Joined
Apr 7, 2011
Messages
220
Gender
Male
HSC
2014
I'm quite sure if you pick high resistance, smaller currents are also induced and hence less heat but I'm not sure. It might well be 19D.

12 is A because you need to choose one that is sensitive to all thermal radiation emitted.
how do you do Q6
 

Users Who Are Viewing This Thread (Users: 0, Guests: 3)

Top