Jump to content

Recommended Posts

Posted

Hi, I'm new in here. I'm only 13 years old.

 

I have a question :

 

There are two car in a road. The first car run with speed 600 km/hour. And the second car run with speed 20 km/hour.

How the first car look the second car ?

How the second car look the first car ?

Why ?

 

Sorry if my english not good.... :-(

Posted

Apa kabar saudara InovFX,

 

can you be more specific. Are the cars travelling towards each other, or in the same direction? When you ask 'how do they look to each other' are you thinking about the effects of relativity on their apparent lengths, or something else?

Posted

Assume that the cars are travelling towards each other at your stated speed, both speed are stated measured with respect to the Earth.

 

The Gamma factor for SP is sqrt(1-v^2/c^2) is so close to unity that the effects of SP is very unobservable.

Even if you add up the velocity according to Lorentz addition of velocity

= (v(ba)-v(ca))/(1-v(ba)v(ca)/c^2), the addition is very close to the answer by adding v(ba) and -v(ca), due to the speed involved not at least 0.2 times the speed of light.

 

At such low speeds, the effect of special relativity cannot be observed!

Posted

>> How the second car look the first car ?

The driver of car 2 would look at the first car with condused disbelief because he never saw a car doing 600 km/h before, I think. But that´s only if he even recognizes what kind of object just speeded by.

 

Now seriously: They both would see the other one coming towards them with a speed of 620 km/h.

Posted

Sorry, that question is wrong, and here the correct question :

 

Look at this picture :

 

v.gif

 

The car 1 run with v=1km/sec and the car 2 run with v=1m/sec.

Can the car 1 see the car 2 ? Can the car 2 see the car 1 ?

How and why ?

Posted
Sorry' date=' that question is wrong, and here the correct question :

 

Look at this picture :

http://www.freewebs.com/freeways/v.gif

 

The car 1 run with v=1km/sec and the car 2 run with v=1m/sec.

Can the car 1 see the car 2 ? Can the car 2 see the car 1 ?

How and why ?[/quote']

Not sure if I really understand what you are asking for but:

- No the cars can´t see each other. At least I haven´t heard of any car being able to see.

- The drivers of the cars can see (assuming they do have eyes) the other car if light from that car falls on their eyes. For example if sunlight is reflected on the car.

- both drivers still percieve the other one as moving with 1001 m/s relative to them, respectively.

 

I´m actually not sure if you wanted to create an example that needs relativity or not. If you wanted to make an example using (special) relativity you have to choose speeds roughly that of the speed of light (300000 km/s). With these "slow" speeds (1 km/s of course is very much for a car) there is not really a need to use relativity.

 

EDIT: Perhaps it would be a good idea to explain what your thoughts on your problem are. It would help others to understand what your point is.

Posted

I change my question again..

 

Look at this picture below :

Man.gif

The Man 2 running around point x with velocity 300.000km/s (lightspeed).

Can man 1 see the man 2 ? Can the man 2 see the man 1 ?

 

I think the man 1 can't see the man 2 because he running very fast. But can the man 2 see the man 1 ?

Posted

In this world of ours, there is no such thing as a physical object moving at lightspeed; it has been proven to be impossible -- it could never happen. Everyone can see everyone else... there are NO exceptions!

Posted

are you trying to ask about Red Shift or something?

that`s one of the things your last diag could be used for in a question (I`m only guessing).

 

and as above, lightspeed for an object wouldn`t be possible, and therefore neither is answering it.

Create an account or sign in to comment

You need to be a member in order to leave a comment

Create an account

Sign up for a new account in our community. It's easy!

Register a new account

Sign in

Already have an account? Sign in here.

Sign In Now
×
×
  • Create New...

Important Information

We have placed cookies on your device to help make this website better. You can adjust your cookie settings, otherwise we'll assume you're okay to continue.