Thursday, January 28, 2010

Continuum Account Is Locked Will A Clock On Earth And A Clock In Deep Space Read The Same Thing?

Will a clock on earth and a clock in deep space read the same thing? - continuum account is locked

My girlfriend and I had a discussion the other day. Want to know if you are two synchronized mechanical watches to land and take one deep into space the same view, taking into account the space-time continuum?

15 comments:

vỄĐү said...

A prediction of general relativity is that time seems to run slower near a massive body like Earth. This is because the interaction between light energy and frequency. The light Ward up in the gravitational field of the earth, lose energy, so that its frequency decreases. (This means that the time span increases between one wave crest and the next. High) Someone, it seems that everything that was in the following using no longer attainable. This prediction was tested in 1962, with a pair of very accurate clocks mounted on the top and bottom of a water tower. The clock on the ground, was the closest to the earth, it was found that run slower in full conformity with the general theory of relativity. the difference in the rate of clocks at different heights above the ground is of considerable practical importance with the advent of high-precision navigation system with signals from satellites. if one ignored the prediction of general relativity, the view that it is calculated, would be a mistake of miles!

Gary B said...

Most clocks, time, unless they relate in any way.

Under the assumption that the area "deep" the difference significant gravity means well, we can expect a clock, which seems to run faster than the nearest clock synchronized. One can assume that, because of the many variables that affect the apparent speed of time, to move deeper into a pit of gravity was moving slowly, over time more. In addition, the acceleration means moving more slowly over time, it is possible that the room appear Clock committed while driving abate, then seemed to accelerate once you arrive. All this seems to assuming of course you are correct, the slowing down during the trip occur only stained red.

I'm not sure what it is, will be covered when you say "taking into account the space-time." After all, if one takes into account all the clocks are the same - if the clock is used as a benchmark against which all is measured.

What you & # 039; re probably asking what is the calculation of GPS systems to monitor the GPS satellites viewed - We need to change the way that the satellites move slowly over time because they are so deep and the severity Earth, such as cars and driver confidence in them.

The consequences of Einstein's theories have never been tested before in exactly this way, so that the designers of satellites and GPS systems, in order to play safely. You need that time to verify, it's two possibilities - the answer on the theory of relativity and the reaction is the basis of classical mechanics. It turns out that we have the correction to Einstein's theory has predicted.

GPS satellites can be "Deep Space" or not, depending on the depth of your idea is in the depths of space. However, they are still very far from the center of gravity of the earth, as we show that different types of weather can be measured, calculated, and significant.

All GPS work shows that changes in time, so calculated, offered inh space and speed.

__connor... said...

Of course, you read it. Its just when they will in real space, then you do not see the clock at the right time. For example, if the clock is sooooo far away and came to a microscope that takes surprisingly, this clock may be 20 minutes later than it really is, and 20 minutes, the light from the travel industry would see Earth would depths of space. It is hard to explain, but at the same time, if you want to try on the website, as it actually is.

anitabsk... said...

In fact, it happens when the clock is space to move, and it depends on the speed with which it was received. If you set the clock to something down there near the speed of light, it would be slower. Moving clocks slow down. That is all any of the relativity theory in the third answer tried to speak.
If you put the clock there is by no faster than the Earth moves around in space, then it would at the same time, while moving the same speed.

Zak said...

No clock in distant space, seems to run faster due to the gravitational time dilation, as in the theory of general relativity. The effect is of course very low.

The clock in the depths of space saved on 1.00000000069541secs or whatever units per second (or longer) on the ground.

Anonymous said...

No

In fact, if their clocks are perfectly correct, it will work in a slightly different prices, even if they are separated in the amount of a small amount (eg on a shelf, a head taller than the others). Since the gravitational potential is different in both locations.

Time passes slowly in the feet of the head.

James said...

As time passes, because it depends on how fast you are traveling. Someone who travel very fast with a clock speed of someone who otherwise will travel very fast. It is also time for serious expansion.

"Misinfo... said...

No, the force of gravity on the motion of a mechanical clock in distant space, because there is less weight, motion clock was faster than the clock on the theory of the ground surface.The Newton replaced by Einstein.

Winner said...

He read the same thing. The faster you drive, the time goes slower for you relatively slow moving objects.

Velic said...

No. Although the Earth's orbit, have GPS devices for one or two seconds in order to synchronize with the satellite and runs accelerate very quickly.

Trevor said...

no clock in the room is slower, can then the other in the country to explain his theory of relativity, which

Irv S said...

No clock in a gravitational field is very slow.

Alex said...

My friend told me that he read at the same time. So im not sure whether it's true.

thatzmyg... said...

Ask Buzz Aldrin. He should know, dass

houses of the holy said...

Let me go check for you, but my breaks rocket

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