MedVision ad

Question Help please! (1 Viewer)

aoniumz

New Member
Joined
Mar 10, 2013
Messages
24
Gender
Male
HSC
N/A
Am I right if I say that...
Phi = B A

B is inversely proportional to A

Therefore as Area decreases B will increase?
 

SquareHeartsAdrita

cya later alligator
Joined
Aug 3, 2014
Messages
209
Gender
Male
HSC
2013
iirc the magnetic flux density is the density of field lines. So in the first line it says "uniform magnetic field" so I though C)


and where did it say B)? this questions looks very familar
 

aoniumz

New Member
Joined
Mar 10, 2013
Messages
24
Gender
Male
HSC
N/A
Its 2010 CSSA trial. The Marking guidelines says its B. But I seriously wonder if my answer is correct at all.
 

SquareHeartsAdrita

cya later alligator
Joined
Aug 3, 2014
Messages
209
Gender
Male
HSC
2013
well the answer key isn't very helpful, it just says B, H7 bands 4-5


but I am fairly confident with my answer
 

aoniumz

New Member
Joined
Mar 10, 2013
Messages
24
Gender
Male
HSC
N/A
But why though? Im thinking as AB rolls down. The area of ABCD will decrease.

A is inversely proportional to B so as Area decrease B Increases
 

SquareHeartsAdrita

cya later alligator
Joined
Aug 3, 2014
Messages
209
Gender
Male
HSC
2013
but that is the magnetic flux increasing. it is asking about the magnetic flux density
 

aoniumz

New Member
Joined
Mar 10, 2013
Messages
24
Gender
Male
HSC
N/A
B is magnetic flux density? Isnt it?
My textbook definition
B definition: Amount of magnetic flux per unit area or magnetic flux density.
Phi definition " number of field lines passing through an imaginary area.
 

Zeref

Stare into my eyes.
Joined
May 6, 2012
Messages
710
Gender
Male
HSC
2014
Magnetic flux is the number of magnetic field lines passing through a given area and is the product of magnetic flux density and the perpendicular surface area. I think the magnetic flux is constant and since A decreases, density must increase. just a guess though.....
 

aoniumz

New Member
Joined
Mar 10, 2013
Messages
24
Gender
Male
HSC
N/A
Well. Magnetic flux will decrease apparently as it is not perpendicular. But the rate it decreases may or may not equal to the area of decrease. Damm I'm so confused!
 

someth1ng

Retired Nov '14
Joined
Sep 18, 2010
Messages
5,558
Location
Adelaide, Australia
Gender
Male
HSC
2012
Uni Grad
2021
The correct answer is B.

When the bar rolls down, there's a change of flux in the closed loop so a current is induced (b to c through the conducting bar) - this current also produces magnetic flux in the same direction as the provided magnetic flux so flux density increases.

Am I right if I say that...
Phi = B A

B is inversely proportional to A

Therefore as Area decreases B will increase?
You are making the assumption that Phi is constant.
 

photastic

Well-Known Member
Joined
Feb 11, 2013
Messages
1,848
Gender
Male
HSC
2014
B because as it's falling at a faster rate due to gravity, hence according to Faraday's law, an emf will be induced. Remember, B=φ/A. φ is increasing as it slides down. Idk ceebs
 
Last edited:

Fizzy_Cyst

Owner @ Sigma Science + Phys Goat
Joined
Jan 14, 2011
Messages
1,212
Location
Parramatta, NSW
Gender
Male
HSC
2001
Uni Grad
2005
totes love this question.

Really need a good understanding of Lenz in order to understand this question
 

anomalousdecay

Premium Member
Joined
Jan 26, 2013
Messages
5,766
Gender
Male
HSC
2013
totes love this question.

Really need a good understanding of Lenz in order to understand this question
Sad thing would be that many texts and references would probably just refer to the formula and say that the area is decreasing so flux density must increase.

Not many texts or references would refer to this problem in the way someth1ng did, which is quite an elegant explanation of what does indeed happen.
 
Last edited:

Fizzy_Cyst

Owner @ Sigma Science + Phys Goat
Joined
Jan 14, 2011
Messages
1,212
Location
Parramatta, NSW
Gender
Male
HSC
2001
Uni Grad
2005
Sad thing would be that many texts and references would probably just refer to the formula and say that the area is increasing so flux density must increase.

Not many texts or references would refer to this problem in the way someth1ng did, which is quite an elegant explanation of what does indeed happen.
Have had a number of tutoring students whose teachers could not explain or explained similar to what you stated :'(
 

anomalousdecay

Premium Member
Joined
Jan 26, 2013
Messages
5,766
Gender
Male
HSC
2013
Have had a number of tutoring students whose teachers could not explain or explained similar to what you stated :'(
Oops just realised my typo area decreases lol.

It happens, and the way I would have seen it back from year 12 would have been the same. Worst thing here is that you can just get away with it and not realise that you have a misconception.
 

Users Who Are Viewing This Thread (Users: 0, Guests: 1)

Top