As it moves through my laboratory, I see its clock run slow, I see its thickness in the direction
of motion shrink, and I see its mass greater than it was when the object stood here with me.
Someone riding on the object and watching me as it sails through my laboratory will see my
clock run slow, my thickness in the direction of motion shrink, and my mass greater than
it was when he stood here with me.
The faster the object is sailing through my laboratory, the more pronounced these effects will be
for both of us. If it's only creeping along at, say, 10 million miles per hour, then it's only moving
at about 0.1% of the speed of light, and the effects are hardly noticeable.
hmm honestly while an object flows like the speed of the sound then surly that will get so much of tension and friction on it, if it has that capability to withstand that much of the force and resists that also could be remain the same shape and size then that won't get any decrease in its mass but in that case against then surly u know it must loose its layers out side poses around it and also get smaller from its original size
As soon as any object moves, no matter how fast or slow, its mass increases.
The faster it moves, the greater its mass becomes. The reason that wasn't
known for so long is that the effect isn't noticeable to us at any speed where
we have daily experience.
Regardless of how small its mass may have been when it wasn't moving, any
object approaches infinite mass as its speed approaches the speed of light.
The mass of anything increases when the thing moves. The faster it moves, the more
its mass increases. At any speed that we're likely to encounter in everyday life, the
increase is so small that we don't notice it. When the speed becomes a significant
fraction of the speed of light, the increase in mass also becomes significant, and it
rises faster with further increases in speed. Theory predicts . .. and thousands of
experiments confirm ... that as speed approaches the speed of light, the mass becomes
infinite, no matter how tiny it was before it started moving.
The particles mass increases without bound as it approaches c, the speed of light.
The mass will approach infinity in this case.
Yes.
maybe
Yes. The frequencies increase, and the wavelengths decrease.
To answer why delves into philosophy or theology. Why is there gravity - there just is..The relativistic mass is the mass an object possesses because it travels at speeds that approach the speed of light ('c'). According to the Lorentz factor, the relativistic mass of an object increases as an object's speed approaches c as follows:.mrel = m / (1 - v2/c2)1/2.where:mrel is the relativistic massm is the rest massv is the object's velocityc is the speed of lightRelativistic mass is only significantly greater than rest mass for objects travelling faster than 0.1c, or one tenth the speed of light, or about 108,000,000 KPH (67,000,000 MPH). As you can see from the above equation, the denominator approaches zero as the object's velocity approaches the speed of light, making the relativistic mass unbounded..The Lorentz factor also applies to an object's momentum and its energy. This means not only the mass, but also an object's momentum and energy approach infinity as the object's speed approaches c. Note that, in this context, an object's rest energy is in according to the equation:.E = mc2.and this energy increases as the object's speed approaches c.
Decreases
The energy will of course also be absorbed by the object. For example, when an object is in sunlight and absorbs part of the light, its temperature will increase.
Increase
As the speed of an object approaches the speed of light, its kinetic energy approaches infinity. An object moving at the speed of light would require inifinite kinetic energy.
Yes sir, according to Einstein. Yes: gravitational force (and therefore energy) increases with an increase in mass. According to the Lorentz Transformations applied in Special Relativity, an object gains (apparent) mass as it approaches the speed of light, quickly approaching (but never reaching) infinite. or: as an object's speed approaches the speed of light from an observer's point of view, its mass appears to increase thereby making it more and more difficult to accelerate it from within the observer's frame of reference.
You have to adjust it to maximize contrast. If you have too much light, you won't have much contrast between the object and the background.
maybe
The cause of grass to increase/ decrease is how much you water it and not water it, how much sun light it gets and air.
It doesn't - the object will never achieve the speed of light, since an infinite mass is not possible (it would require infinite energy). This only describes a tendency: as the object gets closer and closer to the speed of light, so, too, will its mass increase more and more, approaching infinity - this means there is no upper limit to the mass as the object approaches the speed of light.
If speed approaches the speed of light, the mass of any object will increase. This is not just theory; it is observed on a daily basis. Not with spaceships, of course; the technology is not ready yet - but with subatomic particles in accelerators.
You seem to be talking about a light wave. If you increase the amplitude the light gets brighter, and if you decrease it gets dimmer. Amplitude has no effect on colour.
You seem to be talking about a light wave. If you increase the amplitude the light gets brighter, and if you decrease it gets dimmer. Amplitude has no effect on colour.
You seem to be talking about a light wave. If you increase the amplitude the light gets brighter, and if you decrease it gets dimmer. Amplitude has no effect on colour.
Yes. The frequencies increase, and the wavelengths decrease.