Editing 1930: Calendar Facts
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==Explanation== | ==Explanation== | ||
− | + | {{incomplete|There seem to be some possible correct statements, which should be recognized and added as part of the explanation. Do NOT delete this tag too soon.}} | |
+ | [[Randall]] presents what appears to be a generator of 156,000 facts [20 x 13 x (8 + 6 x 7) x 12], about calendars, most of which are false or have little meaning{{Citation needed}}. The facts are seeded by a mishmash of common tidbits about the time of year. | ||
− | [[ | + | The formula for each generated fact goes as follows: "Did you know that '''[a recurring event]''' '''[occurs in an unusual manner]''' because of '''[a phenomenon or natural property]'''? Apparently '''[wild card statement]'''." |
− | + | This is the fifth time that Randall has referred to the phenomenon of a [[:Category:Supermoon|Supermoon]], which he tupically makes fun of, most prominent in [[1394: Superm*n]]. | |
− | + | The title text continues the chart with an inside information of what this tiny trivia actually have of real life consequences. | |
− | + | ==Table== | |
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{| class="wikitable" | {| class="wikitable" | ||
! Entry | ! Entry | ||
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! colspan="3" | Recurring Events | ! colspan="3" | Recurring Events | ||
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− | | The [Fall/Spring] | + | | The [Fall/Spring] Equinox |
| The time of year at which the apparent position of the overhead sun passes the equator. During the equinox, the time that the Sun is above the horizon is 12 hours across the globe. | | The time of year at which the apparent position of the overhead sun passes the equator. During the equinox, the time that the Sun is above the horizon is 12 hours across the globe. | ||
− | | Before the adoption of the | + | | Before the adoption of the Gregorian Calendar in 1582, the equinoxes fell on earlier and earlier dates as the centuries went by, due to the Julian calendar year being 365.25 days on average compared to the tropical Earth year of 365.2422 days. Pope Gregory's decision to remove the leap days on years that were multiples of 100 but not 400 corrected the average length of the calendar year to 365.2425 days. |
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− | | The [Winter/Summer] | + | | The [Winter/Summer] Solstice |
− | | The time of year when the apparent position of the overhead sun reaches its most extreme latitude. During the Winter and Summer solstices the days are the shortest and | + | | The time of year when the apparent position of the overhead sun reaches its most extreme latitude. During the Winter and Summer solstices the days are the shortest in the Northern and Southern hemisphere, respectively. |
− | | Similar to the equinoxes, the solstices were also falling on earlier dates every year before the Gregorian | + | | Similar to the equinoxes, the solstices were also falling on earlier dates every year before the Gregorian Calendar. |
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− | | The [Winter/Summer] | + | | The [Winter/Summer] Olympics |
| The Olympic Games occur during the summer and the winter, alternating between the two seasons every two years. | | The Olympic Games occur during the summer and the winter, alternating between the two seasons every two years. | ||
| The Olympic Games do not have any set dates, and seem to only be included humorously as something else that alternates between occurring during the summer and winter. | | The Olympic Games do not have any set dates, and seem to only be included humorously as something else that alternates between occurring during the summer and winter. | ||
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− | + | |Daylight [saving/savings] time | |
− | + | | Daylight saving time, commonly referred to as daylight savings time, is the practice of setting clocks ahead by one hour during the summer months of the year. | |
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− | | Daylight [saving/savings] time | ||
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| Daylight saving time will push the time of certain events such as sunrise and sunset past their "natural" times. For example, solar noon will occur around 1:00 PM instead of 12:00 noon when daylight saving time is active, making it the "wrong" time. | | Daylight saving time will push the time of certain events such as sunrise and sunset past their "natural" times. For example, solar noon will occur around 1:00 PM instead of 12:00 noon when daylight saving time is active, making it the "wrong" time. | ||
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− | + | | Easter | |
− | + | | Easter is a holiday celebrating the death and resurrection of Jesus Christ. It is defined as the Sunday after the first full moon after the spring equinox. This complicated formula has a long tradition behind it, known as [https://en.wikipedia.org/wiki/Computus Computus]. | |
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− | | Easter is a holiday celebrating the death and resurrection of | ||
| When Pope Gregory decided to change the calendar in 1582, it was because the spring equinox was putting Easter on unexpectedly early dates. | | When Pope Gregory decided to change the calendar in 1582, it was because the spring equinox was putting Easter on unexpectedly early dates. | ||
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| Toyota Truck Month | | Toyota Truck Month | ||
− | | Toyota offers a discount for | + | | Toyota offers a discount for Tacoma trucks one month a year. Mainly notable because radio and television ads hype this discount up as "Toyota Truck Month". |
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− | | | + | | [https://en.wikipedia.org/wiki/Shark_Week Shark Week] |
− | | Every year, the | + | | Every year, the Discovery channel dedicates a week during the summer to programming featuring or about sharks. |
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| colspan="2" | The Sun and Moon are generally what calendars are based on. If something were to drift out of sync, some corrective mechanism would have to be put in to put it back. This is the motivation behind leap years, leap months (in countries with lunisolar calendars) and leap seconds. | | colspan="2" | The Sun and Moon are generally what calendars are based on. If something were to drift out of sync, some corrective mechanism would have to be put in to put it back. This is the motivation behind leap years, leap months (in countries with lunisolar calendars) and leap seconds. | ||
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− | | drifts out of sync with the zodiac | + | | drifts out of sync with the [zodiac] |
− | | colspan="2" | The dates on which the Sun crosses the constellations in the traditional zodiac has shifted in the past centuries due to the precession of the Earth's axis. In the period of time traditionally known as | + | | colspan="2" | The dates on which the Sun crosses the constellations in the traditional zodiac has shifted in the past centuries due to the precession of the Earth's axis. In the period of time traditionally known as Aries (March 21-April 20), for example, the Sun actually points to Pisces instead. |
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| drifts out of sync with the [Gregorian/Mayan/lunar/iPhone] calendar | | drifts out of sync with the [Gregorian/Mayan/lunar/iPhone] calendar | ||
| colspan="2" | | | colspan="2" | | ||
− | *The | + | *The Gregorian calendar is a solar calendar with a mean calendar year length of 365.2425 days. |
− | *The | + | *The Mayan calendar is based on two cycles or counts, with a 260-day count combined with a 365-day "vague" solar year. |
− | *A | + | *A lunar calendar is based on Moon's phases, with each lunation being approximately 29.5 days, and a lunar year lasting roughly 354 days. An example of a lunar calendar is the Islamic calendar. |
− | *The | + | *The iPhone calendar is listed humorously due to its data synchronization issues. |
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− | ! colspan="3" | | + | ! colspan="3" | Phenomena or political decisions |
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| time zone legislation in [Indiana/Arizona/Russia] | | time zone legislation in [Indiana/Arizona/Russia] | ||
| Some states or provinces have time zone legislation that sets the standard time to something other than what the natural longitude of that location would suggest. | | Some states or provinces have time zone legislation that sets the standard time to something other than what the natural longitude of that location would suggest. | ||
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− | * The state of | + | * The state of Arizona generally does not observe daylight saving time, keeping their clocks on UTC-7:00 Mountain Standard Time year round. However, the Navajo nation inside Arizona does observe it, causing the two regions to have different times in the summer and the same time in the winter. |
− | * Time zones in Russia are all one hour ahead of what their longitude would suggest, which puts them in a "permanent" state of daylight saving time. (For example, | + | * Time zones in Russia are all one hour ahead of what their longitude would suggest, which puts them in a "permanent" state of daylight saving time. (For example, St. Petersburg is 30°E, which means that its natural time zone is UTC+2:00, but its time zone is actually UTC+3:00.) Since 1981 until 2011 Russia used to have the daylight saving time on top of it as well. The other changes include the abolishment of the one-hour shift in 1991 and returning it back in 1992, increasing it to two hours in 2011 and restoring back to one hour in 2014. |
− | * | + | * Indiana has a complicated history with daylight saving time, likely related to the state being split between two Time Zones. (see [https://en.wikipedia.org/wiki/Time_in_Indiana Time in Indiana]) |
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| a decree by the Pope in the 1500s | | a decree by the Pope in the 1500s | ||
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| The introduction of the Gregorian calendar brought Easter and the dates that months started back in sync with what they were in the 3rd century AD. | | The introduction of the Gregorian calendar brought Easter and the dates that months started back in sync with what they were in the 3rd century AD. | ||
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− | | the precession | + | | the [precession] |
− | | The Earth's axis is slowly changing position, in a phenomenon called the | + | | The Earth's axis is slowly changing position, in a phenomenon called the [https://en.wikipedia.org/wiki/Axial_precession precession of the equinoxes]. |
| The precession of the equinoxes causes the seasons to occur about 20 minutes earlier than would be expected with the Earth's position relative to the stars, which could be construed as the equinox happening "later every year" if you use the stars as your frame of reference. | | The precession of the equinoxes causes the seasons to occur about 20 minutes earlier than would be expected with the Earth's position relative to the stars, which could be construed as the equinox happening "later every year" if you use the stars as your frame of reference. | ||
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− | | the libration | + | | the [libration] |
− | | The Moon is | + | | The Moon is [https://en.wikipedia.org/wiki/Tidal_locking tidally locked] to its orbit around the Earth, which means that the same side of it tends to face the Earth at any given point in time. However, there are slight variations in the angle over the course of a month, which are known as [https://en.wikipedia.org/wiki/Libration libration]. |
| The libration of the Moon does not affect anything else in the chart, and seems only be included humorously as another example of a celestial phenomenon. | | The libration of the Moon does not affect anything else in the chart, and seems only be included humorously as another example of a celestial phenomenon. | ||
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− | | the nutation | + | | the [nutation] |
− | | Besides precession, there is also a smaller wobbling effect called | + | | Besides precession, there is also a smaller wobbling effect called [https://en.wikipedia.org/wiki/Astronomical_nutation nutation]. |
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− | | the libation | + | | the [libation] |
− | | A | + | | A [https://en.wikipedia.org/wiki/Libation libation] is a ritual offering of liquid to a deity by pouring it onto the ground or into something that collects it. |
− | | This entry seems to have been included simply as a humorous misspelling of the word "libration". | + | | This entry seems to have been included simply as a humorous misspelling of the word "libration". |
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− | | the eccentricity | + | | the [eccentricity] |
− | | | + | | The Earth's orbit is slightly elliptical. It travels faster when it's closer to the Sun and slower when farther away. |
| The Earth's eccentric orbit causes the equinoxes and solstices to occur at irregular intervals. For example, summer in the northern hemisphere lasted 93 days in 2017, while fall only lasted 90 days. | | The Earth's eccentric orbit causes the equinoxes and solstices to occur at irregular intervals. For example, summer in the northern hemisphere lasted 93 days in 2017, while fall only lasted 90 days. | ||
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− | | the obliquity | + | | the [obliquity] |
| The tilt of the Earth's axis relative to the ecliptic is also known as its obliquity. | | The tilt of the Earth's axis relative to the ecliptic is also known as its obliquity. | ||
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− | | the Moon | + | | the [Moon] |
| The Moon is the primary satellite of the Earth. | | The Moon is the primary satellite of the Earth. | ||
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− | | the Sun | + | | the [Sun] |
| The Sun is the star that the Earth orbits around. | | The Sun is the star that the Earth orbits around. | ||
− | | The Sun is the basis for many timekeeping events, such as the day and year | + | | The Sun is the basis for many timekeeping events, such as the day and year{{Citation needed}}. |
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− | | the Earth's axis | + | | the [Earth's axis] |
− | | The Earth's axis of rotation defines the | + | | The Earth's axis of rotation defines the North and South Pole as well as the lines of latitude. |
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− | | the Equator | + | | the [Equator] |
| The Equator is the line on the Earth's surface which is equidistant from both poles of the Earth's axis. | | The Equator is the line on the Earth's surface which is equidistant from both poles of the Earth's axis. | ||
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− | | the Prime Meridian | + | | the [Prime Meridian] |
− | | The Prime Meridian is the line that starts at the | + | | The Prime Meridian is the line that starts at the North Pole, runs through the [https://en.wikipedia.org/wiki/Royal_Observatory,_Greenwich Greenwich Royal Observatory] in London, and ends at the South Pole. It is the basis for longitude when calculating coordinates for positions on the surface of the Earth. |
| The Prime Meridian (and in particular the Greenwich Observatory) gives us Greenwich Mean Time (GMT), which is the basis for UTC and the time zone system. | | The Prime Meridian (and in particular the Greenwich Observatory) gives us Greenwich Mean Time (GMT), which is the basis for UTC and the time zone system. | ||
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− | | the International Date Line | + | | the [International Date Line] |
| The International Date Line is a line on the opposite side of the Earth as the Prime Meridian that separates regions that use time set behind UTC versus regions that are set ahead of UTC. It has many irregularities due to political changes that put certain countries or islands on either side of the divide contrary to their natural longitude. | | The International Date Line is a line on the opposite side of the Earth as the Prime Meridian that separates regions that use time set behind UTC versus regions that are set ahead of UTC. It has many irregularities due to political changes that put certain countries or islands on either side of the divide contrary to their natural longitude. | ||
| The irregular shape of the International Date Line means that certain regions of the Pacific Ocean (such as Kiribati) are more than 24 hours ahead of some other regions (such as Baker Island and American Samoa), which may cause problems with timekeeping. | | The irregular shape of the International Date Line means that certain regions of the Pacific Ocean (such as Kiribati) are more than 24 hours ahead of some other regions (such as Baker Island and American Samoa), which may cause problems with timekeeping. | ||
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− | | the Mason-Dixon Line | + | | the [Mason-Dixon Line] |
| The Mason-Dixon line is a line delineating a portion of the border between Pennsylvania, Maryland, and Delaware. | | The Mason-Dixon line is a line delineating a portion of the border between Pennsylvania, Maryland, and Delaware. | ||
| The Mason-Dixon line is included as a humorous example as another imaginary geographic line. | | The Mason-Dixon line is included as a humorous example as another imaginary geographic line. | ||
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| magnetic field reversal | | magnetic field reversal | ||
− | | The Earth's magnetic field has been reversed several times in its geologic history, so that what we would currently call the "magnetic North Pole" was | + | | The Earth's magnetic field has been reversed several times in its geologic history, so that what we would currently call the "magnetic North Pole" was actually the magnetic South Pole about 780,000 years ago, before the most recent reversal. |
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− | | an arbitrary decision by Benjamin Franklin | + | | an arbitrary decision by [Benjamin Franklin] |
− | | Benjamin Franklin wrote [http://www.webexhibits.org/daylightsaving/franklin3.html a letter to the Journal of Paris in 1784] in which he advised them to rise with the sun in order to save candlelight, after he observed that the | + | | Benjamin Franklin wrote [http://www.webexhibits.org/daylightsaving/franklin3.html a letter to the Journal of Paris in 1784] in which he advised them to rise with the sun in order to save candlelight, after he observed that the Parisiens were getting up at the same time by the clock and burning a lot of candles in the winter as a result. |
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| Benjamin Franklin is often touted as "the father of daylight saving time", despite him never actually proposing to alter the clocks. | | Benjamin Franklin is often touted as "the father of daylight saving time", despite him never actually proposing to alter the clocks. | ||
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− | | an arbitrary decision by Isaac Newton | + | | an arbitrary decision by [Isaac Newton] |
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− | | an arbitrary decision by FDR | + | | an arbitrary decision by [FDR] |
| Franklin Delano Roosevelt set all time zones one hour ahead year-round during World War II. The law was repealed after the war ended. | | Franklin Delano Roosevelt set all time zones one hour ahead year-round during World War II. The law was repealed after the war ended. | ||
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| Setting the time permanently one hour ahead would make everything happen at the "wrong" time celestially. | | Setting the time permanently one hour ahead would make everything happen at the "wrong" time celestially. | ||
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− | ! colspan="3" | | + | ! colspan="3" | Consequences |
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| It causes a predictable increase in car accidents. | | It causes a predictable increase in car accidents. | ||
− | | colspan="2" | The week following daylight saving time, car accidents increase by about 5-7% | + | | colspan="2" | The week following daylight saving time, car accidents increase by about 5-7%<ref>http://www.cbc.ca/news/canada/end-of-daylight-saving-time-2015-6-eye-opening-facts-1.3296353</ref>. |
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| That's why we have leap seconds. | | That's why we have leap seconds. | ||
| colspan="2" | Leap seconds occur because the time required for one rotation of the Earth is actually slightly longer than the 86,400 seconds in a standard UTC day. The Earth's rotation is slowing down by about 2 × 10<sup>-5</sup> seconds every year due to tidal friction caused by the Moon's gravity; however, this is not one of the possible entries in the list of phenomena. | | colspan="2" | Leap seconds occur because the time required for one rotation of the Earth is actually slightly longer than the 86,400 seconds in a standard UTC day. The Earth's rotation is slowing down by about 2 × 10<sup>-5</sup> seconds every year due to tidal friction caused by the Moon's gravity; however, this is not one of the possible entries in the list of phenomena. | ||
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− | ! colspan="3" | Title Text | ||
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| causes huge headaches for software developers | | causes huge headaches for software developers | ||
− | | colspan="2" | Trying to support time zones correctly for all dates present and historic is a mishmash of different regional laws, time zones, and DST changes. The headache is best exemplified in [https://www.youtube.com/watch?v=-5wpm-gesOY this video] by Tom Scott. | + | | colspan="2" | Trying to support time zones correctly for all dates present and historic is a mishmash of different regional laws, time zones, and DST changes. The headache is best exemplified in[https://www.youtube.com/watch?v=-5wpm-gesOY this video] by Tom Scott. |
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| is taken advantage of by high-speed traders | | is taken advantage of by high-speed traders | ||
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| triggered the 2003 Northeast Blackout | | triggered the 2003 Northeast Blackout | ||
− | | colspan="2" | The | + | | colspan="2" | The [https://en.wikipedia.org/wiki/Northeast_blackout_of_2003 Northeast blackout of 2003] was caused by a race condition in the energy management software at a power plant in Ohio. Race conditions can theoretically be caused by mismatched timestamps. |
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− | + | <references /> | |
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==Transcript== | ==Transcript== | ||
+ | {{incomplete transcript|Do NOT delete this tag too soon.}} | ||
− | + | <big>-Calendar Facts-</big> | |
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− | + | [Shown below is a branching flow chart of sorts that begins at the phrase "Did you know that", then flows through various paths to build up a sentence. (Note that the "→" arrow symbol is used below to indicate a new branch with no intermediate text from a previous branch.)] | |
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− | + | * Did you know that: | |
− | + | ** the ( Fall | Spring ) Equinox | |
+ | ** the ( Winter | Summer ) ( Solstice | Olympics ) | ||
+ | ** the ( Earliest | Latest ) ( Sunrise | Sunset ) | ||
+ | ** Daylight ( Saving | Savings ) Time | ||
+ | ** Leap ( Day | Year ) | ||
+ | ** Easter | ||
+ | ** the ( Harvest | Super | Blood ) Moon | ||
+ | ** Toyota Truck Month | ||
+ | ** Shark Week | ||
+ | * → | ||
+ | ** happens ( earlier | later | at the wrong time ) every year | ||
+ | ** drifts out of sync with the | ||
+ | *** Sun | ||
+ | *** Moon | ||
+ | *** Zodiac | ||
+ | *** ( Gregorian | Mayan | Lunar | iPhone ) Calendar | ||
+ | *** atomic clock in Colorado | ||
+ | ** might ( not happen | happen twice ) this year | ||
+ | * because of | ||
+ | ** time zone legislation in ( Indiana | Arizona | Russia ) | ||
+ | ** a decree by the pope in the 1500s | ||
+ | ** ( precession | libration | nutation | libation | eccentricity | obliquity ) of the | ||
+ | *** Moon | ||
+ | *** Sun | ||
+ | *** Earth's axis | ||
+ | *** equator | ||
+ | *** prime meridian | ||
+ | *** ( international date | mason-dixon ) line | ||
+ | ** magnetic field reversal | ||
+ | ** an arbitrary decision by ( Benjamin Franklin | Isaac Newton | FDR ) | ||
+ | * ? | ||
+ | * Apparently | ||
+ | ** it causes a predictable increase in car accidents. | ||
+ | ** that's why we have leap seconds. | ||
+ | ** scientists are really worried. | ||
+ | ** it was even more extreme during the | ||
+ | *** Bronze Age. | ||
+ | *** Ice Age. | ||
+ | *** Cretaceous. | ||
+ | *** 1990s. | ||
+ | ** there's a proposal to fix it, but it | ||
+ | *** will never happen. | ||
+ | *** actually makes things worse. | ||
+ | *** is stalled in congress. | ||
+ | *** might be unconstitutional. | ||
+ | ** it's getting worse and no one knows why. | ||
{{comic discussion}} | {{comic discussion}} | ||
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[[Category:Charts]] | [[Category:Charts]] | ||
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[[Category:Comics featuring real people]] | [[Category:Comics featuring real people]] | ||
[[Category:Daylight saving time]] | [[Category:Daylight saving time]] | ||
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[[Category:Astronomy]] | [[Category:Astronomy]] | ||
[[Category:Supermoon]] | [[Category:Supermoon]] | ||
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