Hey thanks for all these videos and the precise explanation, really appreciate it. Can you please post march 2024 or a link to a folder with the paper?
I will try to work on them, they are not officially out though so that will be tricky, Cambridge is very serious about people who get access to the papers before they are officially released
Ok, excellent question, look the energy stored in the spring comes from the initial kinetic energy. In this question we are told that the initial kinetic energy does not change since the velocity is the same hence the energy stored will also be the same and we can equate the two. Everything is therefore constant and hence we can look at the relationship between the mass and the compression.
Thank you very much, its not my goal to blow up though, its just about helping people understand by redefining how physics is taught, whether its 1 or a 1 000 000
Thats an excellent question so q is just the elementary charge and you find it in the first past of a past paper and its 1.6× 10^-19, its basically how much charge each electron carries, does that help?
Sir i love your past paper explanations and the animations you include ❤ keep on rocking sir ❤
Thank you very much, do share with others and ask if you have any questions that need to be addressed
Very well explained ❤
Thank you very much, please do ask if you have any questions and if you have a specific question paper you want to get solved
Hey thanks for all these videos and the precise explanation, really appreciate it. Can you please post march 2024 or a link to a folder with the paper?
I will try to work on them, they are not officially out though so that will be tricky, Cambridge is very serious about people who get access to the papers before they are officially released
In question 3c how did you come up with the idea of equating 1/2mv^2 to 1/2kx^2
Ok, excellent question, look the energy stored in the spring comes from the initial kinetic energy. In this question we are told that the initial kinetic energy does not change since the velocity is the same hence the energy stored will also be the same and we can equate the two. Everything is therefore constant and hence we can look at the relationship between the mass and the compression.
@@Alevel_Physics ohhh thank you so much 💗 pls dont stop posting im sure ure gonna do great and ur channel is going to blow up in no time xx
Thank you very much, its not my goal to blow up though, its just about helping people understand by redefining how physics is taught, whether its 1 or a 1 000 000
hi in question 5 b iv. part 2 where do u get q from?
Thats an excellent question so q is just the elementary charge and you find it in the first past of a past paper and its 1.6× 10^-19, its basically how much charge each electron carries, does that help?
@@Alevel_Physics yes that helps, thank you very much! :)