Its because of the signal. Atomic clocks that you can purchase are just receivers, similar to the clocks on cell phones.The actual atomic clocks are cesium oscillators which measure the decay of cesium atoms (the metric standard for 1 second.) They are just keepng track of seconds so the NIST adjusts what hour it actually is accordingly and then sends out the signal. I'm sure that will be the case when DST changes.
2006-10-30 09:49:31
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answer #1
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answered by Anonymous
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What the DJ has are clocks that take their time from a radio broadcast from the National Institute of Standards & Technology (NIST). The signals are generated by measuring the counts from an atomic clock and then converting those counts into time standards that we commonly use. The NIST software probably updates the clocks it broadcasts time to, to update for the start of daylight savings time, or the ending of it, depending on season. So it really has nothing to do with whether or not time is kept by an atomic clock but more to do with the clock being "smart enough" to adjust itself for the start or stop of daylight savings time.
2016-03-17 06:19:41
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answer #2
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answered by ? 4
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RE:
How do atomic clocks know when it is daylight saving time?
With the end of daylight saving time in the United States (and elsewhere), my atomic clocks reset themselves back to standard time. My question is does the clock do this because of some programming in the clock itself, or is it because of the signal broadcast by NIST? The reason that I'm...
2015-08-18 23:36:56
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answer #3
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answered by Loleta 1
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Yes although I don't have an atomic clock. My two principle timekeepers are: 1) My cell phone 2) My computer Both of these automatically update without my having to do anything. The clock on my car generally doesn't get reset. Fortunately, it is now correct again :) So I have to remember to stop mentally subtracting an hour when I look at it.
2016-04-04 05:02:30
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answer #4
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answered by Anonymous
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The atomic clocks just count seconds (very accurately) Interpretations like daylight saving or leap seconds are applied by the receivers and computers that connect to these clocks
2006-10-30 09:52:31
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answer #5
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answered by amania_r 7
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Until recently, all time measurement was based on the length of the day, measured as the time between the Sun crossing the meridian (the North-South line) on one day and on the next. The length of the day measured in this way varies slightly throughout the year because the Earth's orbit around the Sun is not perfectly circular and its axis of rotation is inclined to the plane of its orbit. These variations are well understood and to allow for them, time measurement was based on the mean solar day, the average length of all the days in a year. The second was defined as 1/86400 of the mean solar day.
In astronomical observatories, where the greatest accuracy was needed, time was actually calculated from observations of the stars. The motion of the stars relative to the Earth was known more accurately than clocks kept time and mean solar time avoided errors caused by variations in the speed of the Earth's rotation on its axis.
Atomic clocks showed that there were also random variations in the movement of the Earth around the Sun. Although they were very small, the need for increasingly accurate time measurement made them significant. To avoid these problems, in 1967, the definition of the second was changed to 9192631770 "ticks" of a caesium atomic clock.
About 230 atomic clocks in laboratories around the world are compared to give a timescale called International Atomic Time (TAI). The time given by astronomical observations is called Universal Time (UT1).
TAI and UT1 are slowly drifting apart because, as well as having random irregularities in its speed, the Earth is very gradually slowing down. To allow for this, "leap seconds" are added to TAI to produce a timescale called Coordinated Universal time (UTC), which is always kept within 0.9 seconds of UT1. the last leap second of the 20th century was added on 31 July 1999, increasing the difference between UTC and TAI to 31 seconds.
Time signals in Britain give UTC (or UTC plus one hour in the summer). This is slightly different from what used to be known as Greenwich Mean Time (GMT), which corresponds most closely to UT1, but the differences are not significant in everyday use. The time in other parts of the world is UTC plus or minus various numbers of hours.
2006-10-31 00:27:11
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answer #6
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answered by spiderspell 3
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Cool. My Atomic clock set itself also. I knew it was smart!
2006-10-30 09:52:35
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answer #7
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answered by educated guess 5
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Hi. It is stored in your clock. NIST broadcasts a lot of things but no signal to reset clocks for Daylight Savings. (Your clock 'knows' when to reset by the date.)
2006-10-30 09:51:14
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answer #8
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answered by Cirric 7
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