• Congratulations to the Class of 2024 on your results!
    Let us know how you went here
    Got a question about your uni preferences? Ask us here

HSC Physics Predictions / Thoughts (3 Viewers)

Speed’o’sound Sonic

Well-Known Member
Joined
Nov 4, 2019
Messages
495
Gender
Male
HSC
2020
I'd imagine if this came in exam many marks would be lost for not justifying why it is one of the most important equations I.e comparing significance to Newton and Maxwell's equations e.g
No doubt, true that. That's why I wouldn't expect to see it in a final, it just seems a bit open-ended, a bit loose and potentially difficult to mark. However, it's still likely it could come up and for anyone reading - just take a minute to plan out the points you'll discuss, and read the directive (e.g. assess, explain) make sure to address it. 3 hours is a long time and you don't want to rush it and get a 7 or 8/9 just to end up with 20 minutes spare time at the end.
 

ktbffh11

Member
Joined
Jan 8, 2018
Messages
47
Gender
Male
HSC
2018
can someone help me with this?
r= 25.6m and m=885kg
the kinetic friction between tyres and road is 9420N

the velocity you calculate in part a) is 16.5m/s on a non-banked road. thing is I keep getting a lower velocity for the banked road.
 

Attachments

Speed’o’sound Sonic

Well-Known Member
Joined
Nov 4, 2019
Messages
495
Gender
Male
HSC
2020
can someone help me with this?
r= 25.6m and m=885kg
the kinetic friction between tyres and road is 9420N

the velocity you calculate in part a) is 16.5m/s on a non-banked road. thing is I keep getting a lower velocity for the banked road.
Not sure how many marks are allocated. Either you take the short method and let v = (rgtan(angle))^(1/2) or you take the 'long way' and let the horizontal component of friction be equal to the centripetal force, and vertical mg, and work out that way to prove that result. The value of m shouldn't matter as it is a common factor and will 'cancel out' when dividing simultaneously.
 

ktbffh11

Member
Joined
Jan 8, 2018
Messages
47
Gender
Male
HSC
2018
Not sure how many marks are allocated. Either you take the short method and let v = (rgtan(angle))^(1/2) or you take the 'long way' and let the horizontal component of friction be equal to the centripetal force, and vertical mg, and work out that way to prove that result. The value of m shouldn't matter as it is a common factor and will 'cancel out' when dividing simultaneously.
when you use that formula you get a value for v less than 16.5 m/s
 

Speed’o’sound Sonic

Well-Known Member
Joined
Nov 4, 2019
Messages
495
Gender
Male
HSC
2020
when you use that formula you get a value for v less than 16.5 m/s
Well, I'll be honest. I have no clue on that one ahah. I'd look back at your answer for part 1, re check values given for radius and angle of inclination - and maybe even gravitational acceleration) and if that fails the question is broken I guess
 

ktbffh11

Member
Joined
Jan 8, 2018
Messages
47
Gender
Male
HSC
2018
Well, I'll be honest. I have no clue on that one ahah. I'd look back at your answer for part 1, re check values given for radius and angle of inclination - and maybe even gravitational acceleration) and if that fails the question is broken I guess
This is the solution (it’s the 2019 CSSA paper) but they’ve literally done pythagoras wrong so I feel like the questions just not right
 

Attachments

Speed’o’sound Sonic

Well-Known Member
Joined
Nov 4, 2019
Messages
495
Gender
Male
HSC
2020
This is the solution (it’s the 2019 CSSA paper) but they’ve literally done pythagoras wrong so I feel like the questions just not right
Yeah I’d be using trig simultaneously rather than pythagoras. All good, results are often wrong as this is just one example
 

Fabrizio

Active Member
Joined
Dec 2, 2019
Messages
141
Gender
Male
HSC
2020
How can you relativistic momentum or Dr Broglie matter waves to E=mc^2?

Also, those questions are bad. More marks can be deducted than expected because of some small element missing I.e you can get 7/9 even though everything seems to be there, that doesn't happen with calculation/derivation
de Broglie's equation is derived from combining Einsteins mass energy equivalence and planks E-hf
 

Greninja340

Active Member
Joined
Apr 28, 2020
Messages
288
Gender
Male
HSC
2021
Guys is mod 8 for physics hard, if not what mod did you guys find the hardest
 

Vxncent288

New Member
Joined
Oct 3, 2020
Messages
1
Gender
Male
HSC
2020
Is the CNO cycle present in red giants as well as hotter main sequence stars? If asked to identify the dominant nuclear reaction in red giants, do we go with CNO cycle or the triple alpha process?
 

shashysha

Well-Known Member
Joined
Jun 24, 2020
Messages
281
Gender
Male
HSC
2020
Is the CNO cycle present in red giants as well as hotter main sequence stars? If asked to identify the dominant nuclear reaction in red giants, do we go with CNO cycle or the triple alpha process?
CNO cycle is in stars >1.3 solar masses in the main sequence. For red giants, since its out of the main sequence, the nuclear reaction would be the triple alpha process fusing He > C if i remember right
 

Esdog07

New Member
Joined
Dec 2, 2019
Messages
9
Gender
Male
HSC
2020
Since u lot are all pretty smart, anyone know how to solve Schrodinger's differential equation?
 

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

Top