Physics Question

[Guest bundamba]

I have no idea where this post belongs, but here goes.

 

If a car was travelling at the speed of light, and it turned on its headlights, would light project in front of the car?

[spacemanspiff]

i'm going to say yes. but i'm not a physicist.

[Dave]

Originally posted by bundamba

I have no idea where this post belongs, but here goes.

 

If a car was travelling at the speed of light, and it turned on its headlights, would light project in front of the car?

 

relative to what?

[fafalone]

The speed of light is constant for all reference frames, so if the reference frame was moving at c, light would still move at c relative to that frame.

[blike]

in other words, yes

[EvilMind]

yep, regardless of your frame of reference, light travels at c.

 

this post should belong under relativity by the way

[Ryoken]

hmmm... now you are a stationary object observing that car traveling at c. But how fast would the light from the car's headlights be traveling from your refrence frame?

 

Assuming that there are no absticles such as planets, just you, the car and the car's light.

[fafalone]

c. always c.

[Ryoken]

so you would see the light from the headlights not moving past their point of origin because the car is moving at C?

[fafalone]

no, you would see them moving at c.

[Ryoken]

Now lets begin the immentent discussion of C and time.

 

What would happen to a particel if it were to be accelerate to C?

 

I have a vague idea which is certainly incorrect, thus whats YOUR opinion?

[fafalone]

Couldn't accelerate to c through conventional means because it would require infinite energy.

[Radical Edward]

if you travel at c you get unpleasent infinities in the lorentz transforms.

[Luminous]

I guess its like asking, "what if you were going in a car going X mph and fired a bullet out the window ahead of you that was going at the same speed.

[swansont]

I guess its like asking, "what if you were going in a car going X mph and fired a bullet out the window ahead of you that was going at the same speed.

 

No, you could actually answer that, given enough information.

 

The original question can't be answered, because the car could never go at c.

[Littleman]

The original question can't be answered, because the car could never go at c.

Why could the car never be able to go at c?

[LCD]

as something approaches the speed of light its mass increases, (right?) thus requiring more energy to move, at c its mass is infinate, as is the energy required to move it. Light can do it because it has no mass.

[DQW]

If a car was travelling at the speed of light, and it turned on its headlights, would light project in front of the car?

In the ground-frame (to an observer on the ground) : NO

In the car-frame (to an observer in the car) : YES

[MetaFrizzics]

The measurement of the 'speed of light' is an illusion caused by an incomplete understanding of the phenomenon being 'measured'.

 

The 'speed of light' does not conform to normal definitions and expectations of a 'speed'.

[DQW]

The measurement of the 'speed of light' is an illusion caused by an incomplete understanding of the phenomenon being 'measured'.

Pray, elaborate ! An "incomplete understanding" on whose part ? What is this illusion, and how does it come about ? And going a step further, what is the true speed of light, according to you ?

 

"Phenomena" are detected or observed. "Quantities" are measured. "Phenomena" can not be measured.

[swansont]

as something approaches the speed of light its mass increases, (right?) thus requiring more energy to move...

 

Depends on your definition of mass (i.e you are discussing relativistic mass, and all that implies), but the observer never sees that his own mass has increased, in his own frame.

[LCD]

why not? that doesn't make sense to me. how would mass be relative to who is observing it?

[swansont]

why not? that doesn't make sense to me. how would mass be relative to who is observing it?

 

If you use E=mc², then the mass (relativistic mass) is dependent on the total energy, the value of which depends on your frame of reference. (it's one reason not to use that and use the invariant value instead, but that's a separate discussion)

[gisburnuk]

Light from the car would certainly not be able to project forward! Why are most of the members saying 'yes'?

Light has a velocity constancy which basically means that light has a speed limit. For instance: if I was travelling on a coach at 30 mph and I throw a ball at 5 mph towards the drivers direction, then the overall speed of the ball would equal to 35mph. Light cannot gain any extra velocity unlike the ball described earlier. On what foundation do you think time dilation is based upon?