If i was in a vehicle travelling at the speed of light?
Answers:
the object would still accelerate. the speed of light is not the maximum attainable speed, its just a constant with an enormously high value. however a good ole boy by the name of albert einstein came up with a concept called the theory of relativity. this relates to you question in this manner...throwing an object at the speed of light is no different than standing on earth throwing the same object. its speed (velocity times acceleration) is relative to its starting point. the difference between standing still and throwing the object or moving at the speed of light and throwing the object is you. at the speed of light if you move faster or slower in the direction you moved the object, it appears to speed up or slow down. however if the speed of the object has not changed and nothing is adversly affecting it (ie gravity) then it is still moving at the same speed no matter what, it is merely you who has sped up or slowed down. can i get a best answer?
you'd get car sick
Nothing, because the object is travelling at the same speed as you
the object would just stay ahead of you and become more dense. It would not travel past you, as light is a constant.
You'd have your license revoked for speeding.
You would be smashed like a peanut and your body would become a bloody cocktail.
No vehicles can travel at the speed of light. They would become infinitely thin which is impossible.
It wouldn't move forward. It would always be in your hand as you are travelling at the fastest known speed - I think :-?
Without force consistently pushing forward it will slow down but in a vacuum it takes a long time to slow down.
Drag occurs everywhere, even in a vacuum. (particles affect drag as well as airflow or density of atmosphere.
this is the essence of einstein's equation e=mc2.
he formulated this whilst on a river bank with his to be wife.
a boat was motoring long the river and was producing a bow wave ahead of it.
einstein realised that if the boat was travelling at the speed of light it would never actually reach the speed of light. for more info follow this link
http://search.bbc.co.uk and enter e=mc2 in the search bar.
after reading and watching the various articles you will no, if not understand, the structure of ur question.
At the speed of light, you and your car and your object will all get converted in to energy. Remember E = mc^2 ?
Stayed in your hand if nothing is faster than the light.
If you were in vehicle travelling at the speed of light then [general] relativity is wrong and thus we don't "know"
"I'm Walking Backwards For Christmas" - Probably well before your time but a song back in the days by Harry Secombe and Peter Sellers (The Goon Show) - Lets hope they never invent anything that fast or the World will be gone !
Theoretically it should appear to be stationary.
What a load of old bollocks that your answersare giving you. No wonder that we are breeding a load of morons. They should still be in there junior school. Do they honestly think that nothing will ever exceed the speed of light? I can,t believe what i,m reading. Never mind Einstein, his theories went banana shaped ages ago. Two hundred years ago the brains of the day said that nothing could exceed 30mph,a hundred years later it was 100mph, then in the early 20th century it was the speed of sound. Come on you supposedly big thinkers, let,s start getting some of the money back that we,ve forking out for years.
first of all, yu have no weight since yu travel with light speed, from the formula e=mc2.
now the object flight depends upon the force with which yu throw it. since your mass is almost zero, yu cant even lift the object hance no force acc. to force =mass*acceleration.
so yu have no effect on the object
At any uniform velocity the object would move away from you as it would when you are stationary, this is the first priciple of relativity theory. if it behaved diferently depending upon your state of motion you would be able to infer your state of motion. to a relatively stationary observer it would appear that both you and the object travelling alongside each other at the speed of light. the second priciple of relativity is that the velocity of light is a constant ie all inertial observers when measuring the speed of light will obtain the same value. From these two postulates all the equations of special relativity may be derived.
Is impossible to reach the light's speed.
Heres a wee solution.
Go on the train/bus/car etc. Sit down in the seat facing the direction of travel. Throw something ahead of you. What happens?
The speed of the object is relative to its surroundings. I will let you do the maths to simulate it being thrown at the speed of light.
Easy, you could not travel at Light speed (300,000 km/s).
As objects approach the speed of light, 4 things happen:
You would get heavier
Time would slow down
From outside, you would appear to be getting thinner
Your Hat would blow off
If you were traveling at this velocity, you would see yourself throwing the object before you acctually threw it.
also if you were traveling at c velocity, the object would be so heavy from the drag you could not throw it.
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