Prelim Physics Thread (2 Viewers)

porcupinetree

not actually a porcupine
Joined
Dec 12, 2014
Messages
664
Gender
Male
HSC
2015
Oh yeah, where is F=MA derived from?
The equation ΣF=ma (where ΣF and a are vector quantities pointing in the same direction), which is one way to write Newton's 2nd law, isn't as much derived from other equations/laws, rather, it provides a definition of net force - i.e. if an object is accelerating, then there is a net force acting upon the object. It's a fundamental law.

In fact, Newton didn't specifically specify the equation F=ma to be his 2nd Law. Rather, Newton wrote:

That is, the net force on an object is the time derivative of its linear momentum. This can be rearranged as follows to form the more familiar expression for Newton's 2nd law:
 

Green Yoda

Hi Φ
Joined
Mar 28, 2015
Messages
2,859
Gender
Male
HSC
2017
Bump!
A simple question to start of again:
Describe one application of a concave reflecting surface. (3)
 

Green Yoda

Hi Φ
Joined
Mar 28, 2015
Messages
2,859
Gender
Male
HSC
2017
A question I need help with:
What would happen to the intensity of light from a lamp if the intensity at the source were to half and the distance were to triple?
 

Green Yoda

Hi Φ
Joined
Mar 28, 2015
Messages
2,859
Gender
Male
HSC
2017
Bump!
A simple question to start of again:
Describe one application of a concave reflecting surface. (3)
No one answered lel

Radio Telescopes are an example of an concave reflecting surface as they collect incoming parallel signals from the distant and concentrate the signal by reflecting it to a single focus area where the aerial is located in which the data is detected and processed.
 
Last edited:

eyeseeyou

Well-Known Member
Joined
Nov 20, 2015
Messages
4,125
Location
Space
Gender
Undisclosed
HSC
N/A
No one answered lel

Radio Telescopes are an example of an concave reflecting surface as they collect incoming parallel signals from the distant and concentrate the signal by reflecting it to a single focus area where the aerial is located in which the data is detected and processed.
Do you have the marking criteria?
 

Nailgun

Cole World
Joined
Jun 14, 2014
Messages
2,193
Gender
Male
HSC
2016
No one answered lel

Radio Telescopes are an example of an concave reflecting surface as they collect incoming parallel signals from the distant and concentrate the signal by reflecting it to a single focus area where the aerial is located in which the data is detected and processed.
not sure if srs answer but pls dont try and answer a 3 marker with 1 sentence (although pree good sentence)
 

Green Yoda

Hi Φ
Joined
Mar 28, 2015
Messages
2,859
Gender
Male
HSC
2017
not sure if srs answer but pls dont try and answer a 3 marker with 1 sentence (although pree good sentence)
Yeah I did fill up all the space given tho :p
Yeah I know it is not much info there but that's all I could find about the application of reflection in the radio telescopes.
 

Green Yoda

Hi Φ
Joined
Mar 28, 2015
Messages
2,859
Gender
Male
HSC
2017
Outline one application of the Ionosphere for a particular EM wave.
 

Green Yoda

Hi Φ
Joined
Mar 28, 2015
Messages
2,859
Gender
Male
HSC
2017
Outline one application of the Ionosphere for a particular EM wave.
The ionosphere reflects a percentage of radio waves which are sent back towards the Earth. This allows the information in the radio waves to be sent over long distances.
 

Green Yoda

Hi Φ
Joined
Mar 28, 2015
Messages
2,859
Gender
Male
HSC
2017
Quick question
For the dot point:
Outline how total internal reflection is used in optical fibres

I have written:
The optic fibres have 2 layers of glass with the reflective index of the outer layer less than the inner layer. Therefore when light enters the optic fibre it is internally reflected between the outer and inner layers and continues moving forward within the optic fibre instead of escaping through the surface.

Does this correctly answer the dot point? I'm quite unsure if I am missing any other information.
 

leehuan

Well-Known Member
Joined
May 31, 2014
Messages
5,805
Gender
Male
HSC
2015
From memory the main thing with total internal reflection is basically that because the ratio of refractive indices is so large the ray ends up bouncing back in. I don't remember finer details.
 

jathu123

Active Member
Joined
Apr 21, 2015
Messages
357
Location
Sydney
Gender
Male
HSC
2017
Along with the different refractive index, I think you should also mention the other requirement for total internal reflection, that the angle of incidence must be greater than the critical angle.
 

Green Yoda

Hi Φ
Joined
Mar 28, 2015
Messages
2,859
Gender
Male
HSC
2017
Along with the different refractive index, I think you should also mention the other requirement for total internal reflection, that the angle of incidence must be greater than the critical angle.
Critical angle is also defined as:
The critical angle is the angle where total internal reflection prevents the ray from escaping from a higher optical-density medium to a lower optical-density medium.

In my answer I have stated that the refractive index of the inner layer is higher than the outer layer thus being more dense which prevents the light from refracting so the angle of incidence exceeds the critical angle which is assumed by the previous statements.
 

Users Who Are Viewing This Thread (Users: 0, Guests: 2)

Top