Let's see how smart OpenStudy is.

The light from the sun travels 187,000mps
It hits earth in 8min.

How far away is the earth form the sun given this information?

How long would it take a Sakura Blossom falling at 5cm/sec to reach Earth from the Sun?

Find the force being exerted by the light upon the Earth and how far the earth moves each year by the implications of light imposed upon Earth.

Given the earth weighs: 5.972E24 kg

How smart is OpenStudy? Lets see.

Question

Let's see how smart OpenStudy is. 

The light from the sun travels 187,000mps
It hits earth in 8min. 

How far away is the earth form the sun given this information? 

How long would it take a Sakura Blossom falling at 5cm/sec to reach Earth from the Sun? 

Find the force being exerted by the light upon the Earth and how far the earth moves each year by the implications of light imposed upon Earth. 

Given the earth weighs: 5.972E24 kg 

How smart is OpenStudy? Lets see.

aravindg · Answer

$$Speed=\dfrac{distance}{time}$$

aravindg · Answer

$$\LARGE \text{speed of light} =3 \times 10^8$$ approx

aravindg · Answer

so I guess you can do part 1

compassionate · Answer

>How long would it take a Sakura Blossom falling at 5cm/sec to reach Earth from the Sun?

aravindg · Answer

in part 2 you are  given the speed and distance  ,find time

aravindg · Answer

distance is got from part 1 :)

compassionate · Answer

Correct. But you're not given the time at 5cm/s

aravindg · Answer

Part 2 asks for the time !!

compassionate · Answer

There is no part 1 and 2. This is all one.

compassionate · Answer

You want to find the distance given the speed and time.

parthkohli · Answer

$$\rm force = mass \times acceleration$$

anonymous · Answer

Let's see how smart OpenStudy is. 
--Part 1--
The light from the sun travels 187,000mps
It hits earth in 8min. 

How far away is the earth form the sun given this information? 
--END Part 1--
--Part 2--
How long would it take a Sakura Blossom falling at 5cm/sec to reach Earth from the Sun? 
--End Part 2--
Find the force being exerted by the light upon the Earth and how far the earth moves each year by the implications of light imposed upon Earth. 

Given the earth weighs: 5.972E24 kg 

I'm sure this was what Aravind meant when he said part 1 and part 2

parthkohli · Answer

Since the mass of light is $0$, we can just say that light exerts a force of $0N$?

I don't know, I am not so good at Physics. I think light does exert some force.

aravindg · Answer

@PeterPan  thanks .Its always a good idea to break a question into parts :)

compassionate · Answer

In fact, light does move the earth every year. I am asking you to find out given little information.

compassionate · Answer

True, light has no stationary mass, but it has a force. Light can burn things, and that's a form of force.

aravindg · Answer

Light (as in photons) carries momentum. Any change in that momentum (such as absorption or reflection), will impart a force. So yes, it can exert a force. @ParthKohli

compassionate · Answer

So, the question stands, how much force is exerted upon the earth each year and as a result moves it back.

aravindg · Answer

maybe @JamesJ  can enlighten us on this

aravindg · Answer

what I can only predict is that the force may be around 1 newton or less,

aravindg · Answer

@Compassionate do you have the answer with you ?

compassionate · Answer

I do.

jamesj · Answer

Sure, the sun does exert a radiation pressure on the earth of around 4 microPascals, nearly all of it absorbed.

So the force isn't quite as low as 1 Newton, but the acceleration due to it is tiny.

aravindg · Answer

I think he needs a numerical answer James

jamesj · Answer

I'm not going to do the calculations here myself. I'll ask the questioner what they know about radiation pressure, and what relations they have that can help. I'm happy to be a thought partner. But not right now; I'm going to bed.