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I have found the Q n A
See Question 549:
http://physics-ref.blogspot.com/2015/04/physics-9702-doubts-help-page-107.html
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Physics: Post your doubts here!
- Thread starter XPFMember
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See Question 549:
http://physics-ref.blogspot.com/2015/04/physics-9702-doubts-help-page-107.html
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Steels an alloy so it'll be more brittle while Al being malleable will sustain more.I think so
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While putting tension on the bar, they monitor the load it takes to stretch the bar and how much it stretches in the process. .
If you divide the load by the cross sectional area and then divide that by the amount it stretched by the original length, you get values for steel around 30 x 10^ 6 psi . This is called the modulus of the material. For aluminum, it's value is roughly 10 x 10 ^ 6 psi.
This means aluminum will break sooner if all things are equal.
Aluminum does not have as much stretch capability as steel. Aluminum usually breaks after a very low stretch percentage. 3-4 % . Ity's more brittle than steel. Choosing the right steel, it can stretch close to 20 % or higher .
Having a very thick aluminum part can be made to be stronger than steel.
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try this one.
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I just did this one the Ans is A.....I think current wont pass there because there is a shorter route of less resistance available
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yes your reason seams correct.
i did it thinking that p.d across the 40ohm resistor zero so current also zero.
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Can anyone explain this:
Question 81: [Young modulus]
Elastic material with Young modulus E is subjected to tensile stress S. Hooke’s Law is obeyed.
What is the expression for elastic energy stored per unit volume of material?
A S2 / 2E B S2 / E C E / 2S2 D 2E / S2
Reference: Past Exam Paper – June 2014 Paper 13 Q23
Solution 81:
Answer: A.
Elastic energy = ½ Fx
Elastic energy per unit volume = (½ Fx) / V
[Volume V = AL] Elastic energy per unit volume = (½ Fx) / AL.
[F / A = S] Elastic energy per unit volume = Sx / 2L
[Strain = x / L] Elastic energy per unit volume = S {strain} / 2
[Young modulus, E = stress S / strain. So, strain = S / E]
Elastic energy per unit volume = SS / 2E = S2 / 2E
SOURCE: http://physics-ref.blogspot.com/2014/11/physics-9702-doubts-help-page-15.html
Question 81: [Young modulus]
Elastic material with Young modulus E is subjected to tensile stress S. Hooke’s Law is obeyed.
What is the expression for elastic energy stored per unit volume of material?
A S2 / 2E B S2 / E C E / 2S2 D 2E / S2
Reference: Past Exam Paper – June 2014 Paper 13 Q23
Solution 81:
Answer: A.
Elastic energy = ½ Fx
Elastic energy per unit volume = (½ Fx) / V
[Volume V = AL] Elastic energy per unit volume = (½ Fx) / AL.
[F / A = S] Elastic energy per unit volume = Sx / 2L
[Strain = x / L] Elastic energy per unit volume = S {strain} / 2
[Young modulus, E = stress S / strain. So, strain = S / E]
Elastic energy per unit volume = SS / 2E = S2 / 2E
SOURCE: http://physics-ref.blogspot.com/2014/11/physics-9702-doubts-help-page-15.html
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The answer to this question can be reasoned by the symmetry of the circuit.
Current flows from the positive terminal of the battery.
At the left junction, the current divides to flow through the 2 resistors and since the resistances of the resistors are equal, the same current flows through each of them. So, the potential difference across each resistor is the same.
Therefore, the potential at the top junction and the potential at the bottom junction of the 40Ω resistor are the same – that is, the potential difference across the 40Ω resistor is zero.
Thus, no current flows through the 40Ω resistor.
^From Phy Ref
So in other words its like the potentiometer.No PD so no current will flow.
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Answer is A how???
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initial mometum o.oo5x200=1Nm
m1v1=m2v2
1=0.1*v2
v2=10m/s
equation of motion 2sa=v^2-u^2
put values your answer will be 5.096m
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Bro i really wanna help you but i can't upload the pic for it :,(
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Good luck everyone!
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Anyone knows how to use time properly for this paper???...i think I will do easy ones first
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How was the paper???
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Was gonna ask same thing ... I wrote 12, wbu? ... it was easier than last year papers ...How was the paper???
Went pretty well Alhamdulillah but gt mite be high
2(a) (ii) number 2 for acceleration.
From marking scheme :
mg – F = ma hence a = g – [F / m]
m = ρ × V = ρ × 4/3 π R3 = (1.4 × 10–5) C1
a = 9.81 – [6.9 × 10–5] / ρ × 4/3 π × (1.5 × 10–3)3 (9.81 – 4.88) M1
a = 4.9(3) m s–2
How ? and why we got/used this equation mg – F = ma ? why why not mg + f= ma not used ? why the minus sign
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Yep u right gt will be high. I did P12 too. it was very easy for someone who had done pastpapers..CRAM STUDY PAID OFF!
We will discuss it like after that 24 hour thing or whatever
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Oh God it sure did!!Yep u right gt will be high. I did P12 too. it was very easy for someone who had done pastpapers..CRAM STUDY PAID OFF!
We will discuss it like after that 24 hour thing or whatever
24 hrs should be over rite?