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OCR Physics A G484 - The Newtonian World - 11th June 2015

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Reply 1600

maattwileman

Did the resonance graph have to start at 0?

Reply 1601

dancristiancecoi

Did you have to add the volumes up or use the volume of the first container? They were ****in vague. How do I know if the valve allows the gas to go back into the helium container or not? I assumed it doesnt so used the first volume.

Reply 1602

alanconnel

Original post by maattwileman

had to state newtons law of gravitation as a word equation hence you need to define G. another mark lost..

So would this be wrong i wrote: Force between two point masses is directly proportional to the product of their massess and inversely proportional to the square of the distance between them.

Reply 1603

rosstoal

Original post by alanconnel

So would this be wrong i wrote: Force between two point masses is directly proportional to the product of their massess and inversely proportional to the square of the distance between them.

Thats stating Newtons G law. It asked for the equation in words (F=GMm / r^2

Reply 1604

SomeGuy96

Original post by Tazmain

That's what I did, thought because it was a constant force, amplitude would be lower, but not decreasing...

Of course a constant force would make it so the amplitude is decreasing. A constant frictional force will slow the object down over time, hence decreasing its amplitude.

Reply 1605

maattwileman

Original post by alanconnel

So would this be wrong i wrote: Force between two point masses is directly proportional to the product of their massess and inversely proportional to the square of the distance between them.

well probably dw i put that also. why else would they clearly state word equation never have before

Reply 1606

verello12

Original post by fatart123

For the oscillating object that has its frequency slowly increased, does the amplitude remain the same and the only change as f increases it that the graph gets squashed together?

I graphed it as velocity over time, as f was increased velocity was increased and graph got squished together.. It said in the Question that the amplitude stayed constant I believe. Someone correct me if im wrong please.

Reply 1607

SkilledNChilled

Original post by alanconnel

So would this be wrong i wrote: Force between two point masses is directly proportional to the product of their massess and inversely proportional to the square of the distance between them.

That is the correct answer.

Reply 1608

alanconnel

Original post by SkilledNChilled

That is the correct answer.

really???

Reply 1609

SH0405

Original post by aleishahogan

Also where was like circular motion and Brownian motion o.o

There was circular motion knowledge needed in the question which asked us to derive Kepler's 3rd Law. I don't think Brownian motion came up explicitly, although not much can be said regarding it other than the standard "rapid, random, haphazard motion of particles"...

Reply 1610

aleishahogan

Original post by alanconnel

So would this be wrong i wrote: Force between two point masses is directly proportional to the product of their massess and inversely proportional to the square of the distance between them.

Well it's not really a word equation but you never know with OCR. I wrote the same thing then put gravitational force of attraction between two point masses = gravitational constant x mass one x mass two / ( the separation between the masses)^2

Reply 1611

L'Evil Fish

Original post by verello12

I did a second graph like that

But we're wrong apparently

The constant amplitude refers to driving force of oscillator it seems

Reply 1612

ellisvlad

Original post by ETRC

what the actual **** you had to define G?. I just wrote product of masses times G and said what G is. If you had to define G then the question is BS for 1 mark only.
This paper is the definition of ****.

I put that Newton's law of gravitation states that any two point masses attract each other with a force directly proportional to the product of their masses and inversely proportional to the square of their distance. I'm sure that'll be fine for one mark... right?

Reply 1613

SH0405

For the word equation question, I wrote it as a word equation. Like it asked.

Reply 1614

lexl23

Original post by lexl23

Got spit roasted by ocr AGAIN.

Ah man don't worry mate

Reply 1615

rosstoal

Original post by SH0405

For the word equation question, I wrote it as a word equation. Like it asked.

Same. Literally wrote: Force is equal to the product of the two mass by the Gravitational constant, over r squared

Reply 1616

verello12

Original post by olil1996

If I remember correctly, the small container had a pressure of 5x10^7 Pa, a volume of 2x10^-3 and a temperature of 20 degrees celcius.
pV=nRT so n=pV/RT
n=5x10^7 x 2x10^-3/8.31 x 294 = 41.1 mol
The larger container contained 45 moles of the gas and had a volume of 1.2x10^-2 so total number of moles is equal to 41.1 + 45 = 86.1 mol and total volume = 1.2x10^-2 + 2x10-3 = 0.014 m^3
p=nRT/V = 86.1 x 8.31 x 293 / 0.014 = 1.5x10^7 Pa