It takes an infinite amount of energy to accelerate an object with mass to the speed of light. It is therefore impossible.
speed of light is constant velocity and does not accelerate so there is no g force
Yes. Light has a speed, electric impulses from the retina to the brain have speeds and the neurons in the brain have speeds.
Yes. According to the extended theory of relativity, mass will increase as an objects speed increases. The closer the object's speed gets to the speed of light, the greater its mass will be and a greater force will be required to continue to accelerate it.
speed of light I think well it sounds right:)
The object would probably disintegrate completely. The speed of light is 299,792,458 meters per second, that's fast enough to circle the globe at least 6 times. The force against the wind would have to be at least 500,000 pounds of pressure, and that's an underestimation. The object would most likely catch fire, as well.
Same as light.
To calculate the impact speed needed to generate a force of 36 pounds, you would need to know the duration of the impact. The force exerted during a collision is dependent on both the mass of the object and the change in velocity during the impact. Without the duration of the impact, it is not possible to determine the impact speed required to produce 36 pounds of force.
It's never been measured, but it is assumed to be the same as the speed of light.
speed of light is constant velocity and does not accelerate so there is no g force
To lift 100 pounds against gravity, you would need to apply a force of 100 pounds. This accounts for overcoming the force of gravity pulling the object downward. If the object is being lifted vertically at a constant speed, the force required would be equal to the weight of the object.
We generally consider that the force of an electric field moves at the speed of light. And electricity moves at the speed of light.
Yes. Light has a speed, electric impulses from the retina to the brain have speeds and the neurons in the brain have speeds.
The speed of gravity is considered to be the same as the speed of light, which is approximately 299,792 kilometers per second or 186,282 miles per second. This means that the gravitational force between objects is transmitted at the speed of light.
Assuming you keep applying a constant force, it will accelerate indefinitely up to the speed of light
The force generated with a sledgehammer depends on the strength of the person wielding it and the speed at which it is swung. A typical person can generate several hundred pounds of force with a sledgehammer when swung with full force.
No, you can't go faster than the speed of light. This is because you would need an infinite amount of force to accelerate an object to a velocity faster than the speed of light.
Nobody made it up, the speed of light is an inherent property of spacetime and the electromagnetic force. It was first observed and measured during observations of the orbits of the moons of Jupiter.