Discussion:
'Leap Second' to Be Added on New Year's Eve This Year
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Mr. Man-wai Chang
2016-12-22 13:22:01 UTC
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'Leap Second' to Be Added on New Year's Eve This Year

Full story: <http://www.space.com/33361-leap-second-2016-atomic-clocks.html>

Revelers will get to celebrate New Year's Eve for a tiny bit longer
than usual this year.

A "leap second" will be added to the world's official clocks on Dec. 31
at 23 hours, 59 minutes and 59 seconds Coordinated Universal Time (UTC),
which corresponds to 6:59:59 p.m. EST; the clocks will read 23:59:60
before ticking over to midnight. The goal is to keep two different
timescales in sync with each other.

The units of time had long been defined based on Earth's rotation
relative to distant celestial bodies. But that changed with the
invention of atomic clocks in the mid-20th century; scientists then
decided to base the second on the natural vibrations of the cesium atom.
[How to Build the Most Accurate Atomic Clocks (Video)]

These two timescales don't match up exactly, however. Measurements show
that, because the moon's gravitational pull and other factors are
gradually slowing Earth's spin, the rotation-based scale loses between
1.5 and 2 milliseconds per day compared to atomic time — meaning the two
diverge by a full second every 500 to 750 days.

Leap seconds are a way to make up for this difference. Since 1972, the
International Earth Rotation and Reference Systems Service (IERS) — the
organization that keeps track of time for the world — has added 26 leap
seconds to atomic clocks, with the last such insertion coming on June
30, 2015.

The aim is to keep the two timescales within 0.9 seconds of each other.

"We can easily change the time of an atomic clock, but it is not
possible to alter the Earth's rotational speed to match the atomic
clocks," officials with the U.S. Naval Observatory (USNO), which
maintains the Department of Defense's master clock, noted — wryly, it
would seem — in a statement today (July 6).

While Earth's rotation rate is slowing, the effect is quite subtle.

"Confusion sometimes arises over the misconception that the occasional
insertion of leap seconds every few years indicates that the Earth
should stop rotating within a few millennia," USNO officials wrote.
"This is because some [people] mistake leap seconds to be a measure of
the rate at which the Earth is slowing. The 1-second increments are,
however, indications of the accumulated difference in time between the
two systems."

When leap seconds are added, they are always inserted on June 30 or Dec.
31 of a particular year. In 1972, IERS officials called for a leap
second to be inserted on both dates.
Mr. Man-wai Chang
2016-12-22 13:35:48 UTC
Permalink
'Leap Second' Tonight Will Cause 61-Second Minute
June 30, 2015 07:30am ET
Full story:
<http://www.space.com/29795-leap-second-tonight-atomic-clocks.html>

July will arrive a little late this year – one second late, to be exact.

Time will stand still for one second this evening (June 30) as a "leap
second" is added to Coordinated Universal Time (UTC), the time standard
by which most clocks are regulated. The International Earth Rotation and
Reference Systems Service (IERS), which keeps track of time for the
world, has decided that the extra second is needed to deal with Earth's
irregular but gradually slowing rotation.

The extra second will be inserted just before midnight UTC — just before
midnight GMT, and just before 8 p.m. EDT. Instead of rolling straight
through from 23:59:59 to 00:00:00, UTC will tick over to 23:59:60 for a
second. [June 2015 Gets An Extra Second (Video)]
Why does it happen?

The need for a leap second arises because of differences between the
time as recorded on our atomic clocks and the time as recorded by the
rotation of the Earth in its revolution around the sun. But what is the
reason for this slowdown?

Recently, I had a chance to sit down with astrophysicist Neil deGrasse
Tyson, director of New York City's Hayden Planetarium. We chatted about
a number of different astronomical subjects, and one of them was the
impending leap second.

"The moon is slowing us down," Tyson noted. "It's tugging on us. If it
ultimately succeeds at this, Earth's rotation will be as slow as the
lunar month, and we will always show the same face to one another in
what is called a 'double tidal lock.'"

"But," Tyson added, "if you do the math, it will take longer than the
lifespan of the sun for the moon to succeed at this. So it's not
something you should worry about at this point."

Along with the moon, other factors contributing to the slowing of
Earth's rotation include the sloshing of the planet's molten core, the
rolling of the oceans, the melting of polar ice and the effects of solar
gravity.

3 30 245 MORE

'Leap Second' Tonight Will Cause 61-Second Minute
A "leap second" will be added to the world's atomic clocks on June 30,
2015, to accommodate Earth's gradually slowing rotation.
Credit: NASA

July will arrive a little late this year – one second late, to be exact.

Time will stand still for one second this evening (June 30) as a "leap
second" is added to Coordinated Universal Time (UTC), the time standard
by which most clocks are regulated. The International Earth Rotation and
Reference Systems Service (IERS), which keeps track of time for the
world, has decided that the extra second is needed to deal with Earth's
irregular but gradually slowing rotation.

The extra second will be inserted just before midnight UTC — just before
midnight GMT, and just before 8 p.m. EDT. Instead of rolling straight
through from 23:59:59 to 00:00:00, UTC will tick over to 23:59:60 for a
second. [June 2015 Gets An Extra Second (Video)]
Why does it happen?

The need for a leap second arises because of differences between the
time as recorded on our atomic clocks and the time as recorded by the
rotation of the Earth in its revolution around the sun. But what is the
reason for this slowdown?

Recently, I had a chance to sit down with astrophysicist Neil deGrasse
Tyson, director of New York City's Hayden Planetarium. We chatted about
a number of different astronomical subjects, and one of them was the
impending leap second.

"The moon is slowing us down," Tyson noted. "It's tugging on us. If it
ultimately succeeds at this, Earth's rotation will be as slow as the
lunar month, and we will always show the same face to one another in
what is called a 'double tidal lock.'"

"But," Tyson added, "if you do the math, it will take longer than the
lifespan of the sun for the moon to succeed at this. So it's not
something you should worry about at this point."

Along with the moon, other factors contributing to the slowing of
Earth's rotation include the sloshing of the planet's molten core, the
rolling of the oceans, the melting of polar ice and the effects of solar
gravity.
This video isn't encoded for your device

Irregular slowdown

Since January 1972, timekeeping has, by international agreement, been
maintained in accordance with the atomic time scale. The Earth is
currently losing about three-thousandths of a second per day, and,
atomic clocks are just over six-tenths of a second fast on UTC right
now. The addition of the leap second will keep the difference from
exceeding nine-tenths of a second.

Excluding this evening's insertion, leap seconds have been added 25
times since 1972, most recently in June 2012.

Leap seconds are inserted, when needed, either on June 30 or at the very
end of the year, on Dec. 31. In 1972, there were two leap seconds (in
addition to that year also being a leap year). From 1973 to 1979, adding
a leap second on New Year's Eve was an annual occurrence. But from 1999
to 2011 it was necessary to add an extra second only twice (in December
of 2005 and December 2008).
Thomas Heger
2016-12-27 05:57:33 UTC
Permalink
Post by Mr. Man-wai Chang
The need for a leap second arises because of differences between the
time as recorded on our atomic clocks and the time as recorded by the
rotation of the Earth in its revolution around the sun. But what is the
reason for this slowdown?
Recently, I had a chance to sit down with astrophysicist Neil deGrasse
Tyson, director of New York City's Hayden Planetarium. We chatted about
a number of different astronomical subjects, and one of them was the
impending leap second.
"The moon is slowing us down," Tyson noted. "It's tugging on us. If it
ultimately succeeds at this, Earth's rotation will be as slow as the
lunar month, and we will always show the same face to one another in
what is called a 'double tidal lock.'"
"But," Tyson added, "if you do the math, it will take longer than the
lifespan of the sun for the moon to succeed at this. So it's not
something you should worry about at this point."
Along with the moon, other factors contributing to the slowing of
Earth's rotation include the sloshing of the planet's molten core, the
rolling of the oceans, the melting of polar ice and the effects of solar
gravity.
...
Post by Mr. Man-wai Chang
"The moon is slowing us down," Tyson noted. "It's tugging on us. If it
ultimately succeeds at this, Earth's rotation will be as slow as the
lunar month, and we will always show the same face to one another in
what is called a 'double tidal lock.'"
"But," Tyson added, "if you do the math, it will take longer than the
lifespan of the sun for the moon to succeed at this. So it's not
something you should worry about at this point."
Along with the moon, other factors contributing to the slowing of
Earth's rotation include the sloshing of the planet's molten core, the
rolling of the oceans, the melting of polar ice and the effects of solar
gravity.
This is an idiotic explanation, since the relation of Earth to Moon is
irrelevant for the length of the day.

What is relevant is the relation of Earth to Sun.

And since the Moon is not rotating any more in respect to the Earth, the
same phenomenon could eventually also happen in the relation between
Earth and Sun.

So the Earth would finally be gravitationally locked (in very remote
future) with one side to the sun, while still circling around the Sun.

We know this could happen, because it happened to Moon in relation to
the Earth.

And the Earth is way smaller and lighter than the Sun, which is
dominating the relation Sun->Earth as Earth is dominating the relation
Earth->Moon.


TH
FromTheRafters
2016-12-27 13:54:06 UTC
Permalink
Post by Thomas Heger
Post by Mr. Man-wai Chang
The need for a leap second arises because of differences between the
time as recorded on our atomic clocks and the time as recorded by the
rotation of the Earth in its revolution around the sun. But what is the
reason for this slowdown?
Recently, I had a chance to sit down with astrophysicist Neil deGrasse
Tyson, director of New York City's Hayden Planetarium. We chatted about
a number of different astronomical subjects, and one of them was the
impending leap second.
"The moon is slowing us down," Tyson noted. "It's tugging on us. If it
ultimately succeeds at this, Earth's rotation will be as slow as the
lunar month, and we will always show the same face to one another in
what is called a 'double tidal lock.'"
"But," Tyson added, "if you do the math, it will take longer than the
lifespan of the sun for the moon to succeed at this. So it's not
something you should worry about at this point."
Along with the moon, other factors contributing to the slowing of
Earth's rotation include the sloshing of the planet's molten core, the
rolling of the oceans, the melting of polar ice and the effects of solar
gravity.
...
Post by Mr. Man-wai Chang
"The moon is slowing us down," Tyson noted. "It's tugging on us. If it
ultimately succeeds at this, Earth's rotation will be as slow as the
lunar month, and we will always show the same face to one another in
what is called a 'double tidal lock.'"
"But," Tyson added, "if you do the math, it will take longer than the
lifespan of the sun for the moon to succeed at this. So it's not
something you should worry about at this point."
Along with the moon, other factors contributing to the slowing of
Earth's rotation include the sloshing of the planet's molten core, the
rolling of the oceans, the melting of polar ice and the effects of solar
gravity.
This is an idiotic explanation, since the relation of Earth to Moon is
irrelevant for the length of the day.
What is relevant is the relation of Earth to Sun.
No, it is the rate of Earth's spin (which the moon is gradually
slowing) that determines the length of a day.

His explanation is spot on.

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