• Best of luck to the class of 2024 for their HSC exams. You got this!
    Let us know your thoughts on the HSC exams here
  • YOU can help the next generation of students in the community!
    Share your trial papers and notes on our Notes & Resources page
MedVision ad

Physics Predictions/Thoughts (4 Viewers)

StudyOnly

Active Member
Joined
Oct 16, 2018
Messages
171
Gender
Male
HSC
2019
I found MC difficult (last few questions). Some of the short answers were also hard for me. Overall hoping for a low to mid B6.
EDIT: On second thoughts: Might be a B5 :(
 

akkjen

Active Member
Joined
Sep 27, 2019
Messages
140
Gender
Male
HSC
N/A
what did people get for the fan question? and also the protractor one?
i found it quite hard
 

Arrowshaft

Well-Known Member
Joined
Sep 2, 2018
Messages
565
Location
NSW
Gender
Male
HSC
2019
I was switching between “wtf is this” and “okay I got it” during the exam lol
Same! With string question, duuuude I didn’t realise that the Picture showed the front of the car until 20 mins before the exam Hahahah, I thought it was linear motion and was so confused for a while. I hate how subtle they are with the diagrams. Got it in the end though
 

psmao

Member
Joined
May 14, 2019
Messages
93
Gender
Male
HSC
2019
Same! With string question, duuuude I didn’t realise that the Picture showed the front of the car until 20 mins before the exam Hahahah, I thought it was linear motion and was so confused for a while. I hate how subtle they are with the diagrams. Got it in the end though
Did u deduce a relationship between acceleration and angle?
 

Idkwhattoput

Member
Joined
Mar 14, 2018
Messages
93
Gender
Male
HSC
2019
Uni Grad
2024
I did the same lol What did u get
I let theta be the angle between the string and the normal, and then saud tan(theta)=(gravity force)/(centripetal force). This was assuming the car was turning. I then reaarranged to find v, but im not sure if its right. I have to try it out
 

Arrowshaft

Well-Known Member
Joined
Sep 2, 2018
Messages
565
Location
NSW
Gender
Male
HSC
2019
I let theta be the angle between the string and the normal, and then saud tan(theta)=(gravity force)/(centripetal force). This was assuming the car was turning. I then reaarranged to find v, but im not sure if its right. I have to try it out
Yep. Got tan theta = v^2/rg
 

Drdusk

Moderator
Moderator
Joined
Feb 24, 2017
Messages
2,022
Location
a VM
Gender
Male
HSC
2018
Uni Grad
2023
Were there lots more calculations compared to the Old syllabus?

Looks like everyone did well. Well done!
 

Arrowshaft

Well-Known Member
Joined
Sep 2, 2018
Messages
565
Location
NSW
Gender
Male
HSC
2019
@Qiaochu Chen this is how I did it.
By resolving forces, we see that the centripetal force points inwards, and the bead experiences a downward acceleration.









Correct me if I'm wrong though.
 

Users Who Are Viewing This Thread (Users: 0, Guests: 4)

Top