The first calendars appeared as an urgent need in the face of cyclical and predictable weather changes. In Nabta - Playa (the territory of modern Egypt) about 5 thousand years BC. e. semi-nomadic tribes of pastoralists created, perhaps, the first annual "calendar circle", the beginning of the year on which was marked by the appearance of the star Sirius. This calendar helped set the tribes when to expect the beginning and end of the rainy season, which turned the desert region into a flourishing savanna suitable for grazing. Around the same time in the territory modern Germany the so-called Goseck circle was created, the reference for which was the winter solstice. Translation from one chronology to another presents certain difficulties due to the different length of the year and because of the different date of the beginning of the year in different systems. The counting of the year from January 1 was introduced in Rome by Julius Caesar in 45 BC. e. (Julian calendar). In Rus', since 1492, the beginning of the year was considered not March 1, but September 1. The Julian calendar set the average length of the year at 365.25 days: ordinary years lasted 365 days, once every four years (leap year) 366 days. A development of the Julian calendar is the Gregorian calendar ( a new style). It was introduced under Pope Gregory XIII on October 15, 1582 to replace the Julian calendar (old style). The difference between the old and new styles was 10 days in the XVIXVII centuries, 11 days in the XVIII century, 12 days in the XIX century, and 13 days in the XXXXI centuries. From March 15, 2100, it will be 14 days.
Ancient Greek calendar. It was lunar and consisted of 354 days. The main disadvantage of such a calendar was that it periodically diverged from the solar year by 11.25 days. For this reason, every eight years, 90 days had to be added to the year, divided into three identical months.
Ancient Roman calendar. Initially, the Roman calendar consisted of 304 days divided into 10 months, and the first of March was considered the date of the beginning of the new year. In the future, this calendar underwent numerous reforms, in particular, two additional months were added, and the date of the new year was also changed from March 1 to January 1.
Julian calendar It was created by Julius Caesar, who tried to link calendar dates with seasonal natural phenomena. Julius introduced the length of the year, equal to 365.25 days. According to the Julian calendar, every four years there is a leap year, which lasts 366 solar days. Orientation to the solar cycle made it possible to avoid unnecessary "inserts" in the calendar (with the exception of the leap year), as well as to bring the calendar dates closer to the natural cycle.
Gregorian calendar The creation of the Gregorian calendar was associated with the name of Pope Gregory XIII and was designated as the introduction of a "new style" to replace the "old style" (Julian calendar). The main goal of the reform was the return of the real date of the vernal equinox - March 21, established back in the days of the Council of Nicaea, which approved Paschal. The Gregorian calendar is as close as possible to the tropical year, the difference is only 26 seconds. The Gregorian calendar was introduced in Russia in 1918.
Calendar systems Lunar calendar Lunar-solar calendar Solar calendar 29.53 days 354.37 days Ease of observation Not tied to the solar year Inconstancy of the month due to the complex movement of the moon in its orbit 30.44 days 365.24 days Attached to natural processes Need to be adjusted 29 .53 days 365.24 days Variable number of months per year (12-13)
Lunar calendar The change in the phases of the moon is one of the most easily observed celestial phenomena. Therefore, many peoples used the lunar calendar. Over time, the lunar calendar ceased to satisfy the needs of the population, since agricultural work is tied to the change of seasons, that is, the movement of the Sun. Therefore, lunar calendars, with rare exceptions (for example, the Islamic calendar), were inevitably replaced by lunisolar or solar calendars. The beginning of the month in lunar calendars falls on the first appearance of the young moon in the rays of the setting sun. This event is easily observable, unlike the new moon. Neomenia is 23 days behind the new moon. Moreover, this time varies depending on the time of year, the latitude of the observer and the current duration of the synodic month. Because of this, it is impossible to keep the same calendar in different countries.
Lunisolar calendar A calendar year may consist of 12 (normal year) or 13 calendar months. In order for the average length of the calendar year to be close to the length of the tropical year, a system for inserting extra months is needed. The beginning of the month in lunisolar, as well as in lunar calendars, falls on inability, that is, on the first appearance of the young moon in the rays of the setting sun.
Solar calendar The calendar year in the solar calendar must be 365 days (normal year) or 366 days (leap year). To approximate the average length of the calendar year to the length of the tropical year, leap years are inserted. In this calendar, the sequence of leap years is the same as in the Julian calendar, but an additional rule is introduced, according to which 7 days are excluded every 900 years in the New Julian calendar. A century-old year is considered a leap year if, when divided by 900, the remainder remains 2 or 6. Cycle calendar is 900 years, during which 218 leap days are inserted. The average length of a calendar year is 365.242 days, which gives an error of 1 day in about years.
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Goals and objectives of the lesson.
General education: formation of concepts: calendar, lunar and solar calendars, lunar month and tropical year, seven-day week, old and new styles, leap year, formula for converting dates from one chronology system to another.
Educational: acquaintance with the main types of calendars, the concept of "leap year" and the translation of the dates of the Julian and Gregorian calendars.
Developing: the formation of skills to solve problems for the calculation of the transfer of dates of the chronology from one chronology system to another.
Lesson plan.
- Material update.
- Formation of concepts about the main types of calendars, their differences and application.
- Formation of concepts about new and old styles.
- The problem of the world calendar.
- Solving the problem of translating a date from one style to another. Reflection.
- Homework.
Visual aids: presentation for the lesson.
During the classes
1. The entire centuries-old history of human culture is inextricably linked with the calendar.
The need for calendars arose in such extreme antiquity, when people could not yet read and write. The calendars determined the onset of spring, summer, autumn and winter, the periods of flowering plants, fruit ripening, the collection of medicinal herbs, changes in the behavior and life of animals, weather changes, the time of agricultural work, and much more. Calendars answer the questions: "What date is today?", "What day of the week?", "When did this or that event happen?" and allow to regulate and plan the life and economic activity of people.
2. (slide number 2) The basis of any calendar is long periods of time, determined by periodic natural phenomena - a change lunar phases and the change of seasons.
As a result of attempts to harmonize the day, month and year, three calendar systems arose:
(Slide #3)lunar, in which they wanted to coordinate the calendar month with the phases of the moon;
(Slide number 4)solar in which they sought to harmonize the length of the year with the frequency of processes occurring in nature;
(Slide number 5)lunisolar in which they wanted to agree on both.
Each calendar is obliged to establish a certain order of counting days (days), the number of days in long periods of time and indicate the beginning of the counting of the periods themselves. The first task does not cause difficulties, the third one is also solved simply, because any real or mythical event can be taken as the beginning of the count. The second problem would be solved easily if the period of the change of lunar phases, called lunar month, And tropical year(the period of the change of seasons of the year) contained exactly an integer number of days. But all three periods are incommensurable with each other: a tropical year is 365 days 5 hours 48 minutes 46.08 seconds, a lunar month is 29 days 12 hours 44 minutes 2.98 seconds.
(Slide number 6) Calendar - a certain system of counting long periods of time with their subdivisions into separate shorter periods (years, months, weeks, days). The very word " calendar" derived from Latin words "saleo" - proclaim and "calendarium" - debt book.
(slide number 7) The first recalls that in ancient Rome the beginning of each month was proclaimed specially, the second - that on the first day of the month it was customary to pay interest on debts.
(slide number 8) First moon calendar appeared in the middle of the III millennium BC. in ancient Babylon. At the same time, the seven-day week was introduced. This "sacred" number greatly inspired the priests, who knew 7 bright "divine" luminaries in the sky: the Sun, the Moon, Mercury, Venus, Mars, Jupiter and Saturn. Each day of the seven days could be dedicated to one of the heavenly bodies.
It seemed especially important and symbolic. The custom of measuring time with a seven-day week began among many ancient peoples.
(slide number 9) The larger and, from a modern point of view, the least important unit of time measurement is the month. The month, as the name itself emphasizes, is associated with the Moon - initially the month corresponded to the duration of the full cycle of lunar phases, which is associated with the revolution of the Moon around the Earth. The periodic “dying” and “rebirth” of the lunar disk served as an eternal “clock”.
The lunar month was naturally divided into four quarters: from the “birth” of the Moon to the moment when exactly half of the “young” lunar disk is visible (this moment is now called the first quarter), from the half-lit disk to the full moon, then from the full moon to half “ old" Moon and, finally, from the half-lit disk to its complete disappearance at the new moon. The fourth part of the month is rounded up to 7 days.
(slide number 10) At the dawn of modern civilization, the inhabitants of the interfluve of the Tigris and Euphrates used the lunar month as the main unit of measurement for long periods of time. The true length of a lunar month averages about 29 and a half days. The beginning of a new month was determined directly from observations of the first appearance of the narrow crescent moon after the new moon. The lunar months turned out to be of different lengths: they alternately turned out to be 29 or 30 days.
The Babylonian priests judged the existence of a yearly cycle of natural phenomena mainly by the floods of the rivers. By observing them, they deduced that there are 12 lunar months in a year. This number also had to be very satisfying for the priests: it fits well into the Chaldean sexagesimal counting system and clearly indicates that the world was created by the gods in the highest degree reasonable.
However, 12 months, which are either 29 or 30 days, add up to 354 days. This is more than 11 days less than the true length of the solar year. Thus, counting 12 lunar months a year, the Babylonian priests were soon to find that their spring month, Nisanu, wandered tirelessly through all the seasons. It becomes summer, then autumn, then winter. The Babylonian purely lunar calendar needed improvement.
In the future, the lunar calendar was improved and now under the name Muslim calendar adopted in several Asian countries. Muslim calendar year contains 354 days and is subdivided into 12 months, lasting alternating 30 and 29 days, which averages 29.5 days, i.e. close to the lunar month.
(slide number 11) IN Ancient Egypt three millennia BC existed solar calendar. From observations it was found that the first predawn appearance of bright stars after a period of their invisibility is repeated after about 360 days. Therefore, the ancient Egyptian solar calendar contained 360 days and had 12 months. Each month had 30 days.
The Christian calendar is of Greco-Roman origin and is solar in its type, but along with this, the Christian church-liturgical annual cycle is rooted in the Jewish tradition, therefore, calculations and setting dates for a number of Christian holidays are made taking into account their relationship with the Jewish lunisolar calendar.
(slide number 12) ancient roman calendar formed in the 1st century. BC. The year of the Roman calendar with a total duration of 355 days consisted of 12 months.
(Slide number 13) Such a coincidence is not accidental. It is explained by the fact that the Romans at that time tied the calendar to the change in the phases of the moon. The beginning of each month was determined each time by the first appearance of the lunar crescent after the new moon, and by order of the priests, each time the heralds informed the Romans about the beginning of a new month or year, which was a big drawback of the ancient Roman calendar.
The fact that the Roman year was more than 10 days shorter than the tropical year also caused great difficulties. Every year the calendar numbers corresponded less and less to the phenomena of nature. But agricultural work played an important role in the economic life of the Romans, and in order to keep the beginning of the year close to the same season, they inserted additional days. At the same time, the Romans, out of some superstitious motives, did not insert a whole month separately, but in every second year between February 23 and 24 they “wedged” alternately 22 or 23 days. As a result, the number of days in the Roman calendar alternated in this order: 355 days; 377 (355+22) days; 355 days; 378 (355+23) days. The intercalary days were called the month of Mercedonia, although the ancient writers simply called the intercalary month - intercalaria (intercalis). The very word "mercedony" comes from "merces edis" - "payment for labor": it was the month in which the tenants made settlements with the owners of the property. As a result of the insertions, each four-year period consisted of two simple years and two elongated ones. The average length of the year in such a four-year period was 366.25 days, that is, it was a whole day longer than in reality. In order to avoid discrepancies between calendar numbers and natural phenomena, it was necessary from time to time to increase or decrease the length of additional months. All these corrections and changes in the calendar, as well as the general supervision of its correctness, were entrusted to the high priest.
The right to change the length of the additional month from 191 BC.
belonged only to the pontiffs, headed by the high priest. But they often abused their power by lengthening the years and thereby the terms of elected office for their friends, and shortening those terms for enemies or those who refused to pay a bribe. Since at the beginning of each year the payment of debts and taxes was carried out, it is not difficult to imagine how firmly, with the help of the calendar, the priests held in their hands all the economic and political life in ancient Rome. Over time, the calendar became so confused that the harvest festival had to be celebrated in winter.
3. (Slide #14) At the time of the birth of Christianity (I century AD), the official calendar of the Roman Empire was the solar calendar, called Julian. It was created as a result of the reform carried out in 46 BC. emperor Julius Caesar (hence the name of the calendar) and introduced from January 1, 45 BC.
The reform was caused by the imperfection of the old Roman calendar: the year in this calendar consisted of only 10 months and contained 304 days, which made it much shorter than the tropical year of the time interval between two successive passages of the center of the Sun through the vernal equinox, equal to 365 days 5 hours 48 minutes and 46 seconds of solar time.
Calendar dates every year were less and less consistent with astronomical and natural phenomena, and this, in turn, created difficulties in determining the timing of seasonal field work, the time of tax collection, and also violated the frequency of dates of public holidays.
Having been in Egypt, Julius Caesar got acquainted with the Egyptian calendar, which was used by them already from the 4th millennium BC. The origin of the Egyptian solar calendar is associated with Sirius, the brightest star in the sky. The Egyptians took the time interval between the first two morning sunrises of Sirius as the basis for calendar calculations, which equally coincided with the summer solstice and the flood of the Nile and amounted to 365? days.
(slide number 15) But the year in the Egyptian calendar consisted of 365 days and was divided into 12 months, 30 days each (at the end of the year, five holidays were added that were not part of the months). It was this calendar that Caesar decided to introduce in Rome. He entrusted the creation of a new calendar to a group of Alexandrian astronomers headed by Sosigenes.
The essence of the reform was that the calendar was based on the annual movement of the Sun between the stars. The average length of the year was taken equal to 365? days, which corresponded to the length of the tropical year known at that time. So that the beginning of the calendar year always falls on the same date and at the same time of day, 3 years in a row count 365 days each, and the fourth, leap year, 366 days.
(slide number 16) The year was divided into 12 months, for which their traditional Roman names were retained:
January (Ianuarius) in honor of the god Janus;
February (Februarius) in honor of the god Februus;
March (Martius) in honor of the god Mars
April (Aprilis) from the Latin aprire (to open), as in this month the buds on the trees open;
May (Maius) in honor of the goddess Maya;
June (Iunius) in honor of the goddess Juno;
Quintilis fifth;
Sextilis (Sextilis) sixth;
September (September) the seventh;
October (October) the eighth;
November (November) ninth;
December tenth.
The number of days in the months was ordered: all odd months had 31 days, and even ones had 30. Only February of a simple year contained 29 days.
The beginning of the new year began to be considered the day of January 1 (before that New Year began on March 1 in the Roman calendar). Just in 45 BC. This day was the first new moon after the winter solstice. This is the only element in the structure of the Julian calendar that has a relationship with the lunar phases.
At the same time, the calendar reform did not affect the principles of traditional chronology: the records of the official calendar were dated in Rome by the years of the reign of the consuls, and later by the emperors. In addition, the unofficial chronology ab Urbe condita (from the founding of the City), or the Roman era, dating back to 753 BC, became widespread in Rome.
In gratitude to Julius Caesar for streamlining the calendar and his military merits, the Roman Senate in 44 BC. renamed the month Quintilis (fifth), in which Caesar was born, to July (Iulius).
slide number 17) But the final calendar reform was completed only in 8 BC. during the reign of Emperor Augustus. In his honor, the month of Sextilis was renamed Augustus. By order of the emperor, starting from 8 BC. and ending A.D. 8. leap years do not add an extra day. In addition, the alternation of long and short months changed: one day was added to August at the expense of February, at the same time one day of September was transferred to October and one day of November to December.
(slide number 18) The table “Names of months in Old Church Slavonic, Ukrainian and Belarusian languages is given.
The correct application of the Julian calendar began only in the 7th century. from R.H. From now on, all calendar years, the ordinal number of which is divisible by 4, are leap years. The Julian year was set at 365 days and 6 hours. But this value is 11 minutes 14 seconds longer than the tropical year. Therefore, for every 128 years, a whole day accumulated.
Thus, the Julian calendar did not have absolute accuracy, but its merit lay elsewhere - in considerable simplicity.
(Slide No. 19) In 325, the first Ecumenical (Nicene) Council of the Christian Church took place, which approved the Julian calendar for use throughout the Christian world. At the same time, the movement of the Moon with the change of its phases was introduced into the Julian calendar, strictly oriented to the Sun, that is, the solar calendar was organically connected with the lunar calendar. This was an extremely important moment in determining the timing of the celebration of the most important Christian holiday - Easter and the mobile holidays associated with it: the Easter of the New Testament depended on the Old Testament Jewish Easter, which is always celebrated on the same day - Nisan 14 according to the Jewish lunar calendar.
The ecclesiastical Julian calendar in its reformed form not only fulfilled the task that met all the requirements of church worship, but also put an end to disputes between the Roman, Constantinople and other Churches about when exactly the Christian Easter should be celebrated and what rules should be followed for this.
The Council decided to celebrate Easter on the first Sunday after the full moon, which falls on the vernal equinox. According to the Julian calendar at that time, the vernal equinox fell on March 21st. This date was recognized as the starting point for calculating the Easter holiday.
So the moment of the spring equinox for every 128 years is shifted relative to calendar dates by a whole day. Therefore, it became necessary to reform the calendar, since the celebration of Easter was increasingly moved away from the astronomical date of the vernal equinox. In 1582, such a reform, aimed primarily at meeting church needs, was carried out by Pope Gregory XIII.
The accumulated extra days were removed very simply, announcing after October 4 immediately on October 15, 1582.
(slide number 20) Calendar introduced by Pope Gregory XIII
Calendar introduced by Pope Gregory XIII Gregorian calendar (new style), was in the same year, 1582, adopted in Italy, France, Spain, Portugal and other Catholic lands. Protestant countries did not recognize such an innovation for a long time and switched to this calendar already in the 18th century. In 1873, the Gregorian calendar was adopted in Japan, in 1911 - in China.
IN Gregorian calendar (new style) the alternation of simple and leap years within each century is carried out in exactly the same way as in the Julian calendar, but the last year of the century is considered a leap year only if the century number is divisible by 4. Thus, the years 1600. 2000. 2400 for both calendars are leap years, but the years 1700, 1800, 1900 and 2100 in the Julian calendar are considered leap years (366 days), and in Gregorian - simple (365 days), and thus for 400 years, for example, from 1600 to 2000, three days are excluded.
(slide number 21) In Russia, by a decree of the Council of People's Commissars of the RSFSR of January 26, 1918, the day following January 31 began to be considered February 14. However, the Russian Orthodox Church did not switch to the new style and retained the Julian calendar.
But in secular use, the Gregorian calendar has become international, since almost all countries of the world adhere to it.
The Julian calendar is currently 13 days behind the Gregorian. Because If the year 2000 is a leap year according to the new and old styles, then this difference will remain until February 28, 2100, after which it will reach 14 days.
The error of the Julian calendar for 400 years is 74 hours 53 minutes. And in the Gregorian over the same period, an excess of 2 hours and 53 minutes accumulates.
(Slide number 22) To translate dates Julian calendar (old style) to Gregorian (new style) must be added to the number of the old style the number n, calculated by the formula:
where C is the number of full centuries that have passed during this period,
C 1 - the nearest smaller number of centuries, a multiple of four.
(Slide number 23) The number n can be determined from the table - "The discrepancy between the Julian and Gregorian calendars."
4. (slide number 24) Problem: what is the main difficulty in compiling any calendar system?
Answer: The fact that the natural measures of time that people are forced to use - year, month and day - are incommensurable with each other.
Today, our calendar from an astronomical point of view is quite accurate and, in essence, does not require any changes. Yet reform has been talked about for decades. At the same time, they mean not a change in the type of calendar, not the introduction of new methods for counting leap years. We are talking exclusively about regrouping the days of the year in order to equalize the length of months, quarters, half-years, to introduce such an order for counting days in a year in which the new year would fall on the same day of the week, for example, on Sunday.
Indeed, our calendar months have a duration of 28, 29, 30, 31 days; the length of a quarter varies from 90 to 92 days, and the first half of the year is three to four days shorter than the second. As a result, the work of planning and financial bodies becomes more complicated. It is also inconvenient that the week begins in one month or quarter, and ends in another. Since the year contains 365 days, it ends on the same day it began, and each new year begins on a different day.
Over the past 60 years, all sorts of calendar reform projects have been put forward. In 1923, under the League of Nations, a special committee was established on the issues of calendar reform. After the Second World War, this issue was transferred to the Economic and Social Council of the United Nations.
5. (Slide #25) Tasks.
1. Condition: A.S. Pushkin was born in Moscow on May 26, 1799. When should his birthday be celebrated according to the new style?
(slide number 26) Solution: In the XVIII century. in Moscow, the old style was in effect, in which, unlike the new style, the years 1800 and 1900 were considered leap years. Consequently, in 1799, both styles differed not by 13 days, but by 11 days, and according to the new style, the desired date is May 6, i.e.
n=C-(C 1:4)-2=17-(16:4)-2=11,
2. (slide number 27) What does the name of the month "August" mean? A hint in K.Vasiliev's painting "Harvest"?
(Answer: sickle).
6. (slide number 28) Homework. Determine your date of birth according to the old style.
Literature and websites:
- http://kref.ru/infotsennyebumagi2/57815/13.html
- http://coolreferat.com/History_calendars_part=3
- http://kruzhalov.ru/html/history-of-russia/lesson8/lesson8.html
- http://www.abc-people.com/typework/history/hist13.htm
- Klimishin I.A. Calendar and chronology. – M.: Nauka, 1985.
- What is a "calendar" and its necessity, tasks and basis?
- Calendar systems
- Sumerian calendar
- Babylonian calendar
- Ancient Persian calendar
- ancient roman calendar
- Used sources
New Year's Eve
he came to the house Such a ruddy fat man, But every day he lost weight, And, finally, completely disappeared.
Calendar
What is a "calendar"?
Calendar - this is a printed edition in the form of a table(sheet calendar) or books, which contains list of numbers, days of the week, months(less than years). Holidays and astronomical information (lunar phase, eclipses, etc.) are also indicated.
Meaning of the word
Word " calendar"had in its history different meanings
Then came the word calendarium.
So called debt book, in which creditors recorded the interest paid on debts on the first day of each month.
From lat. calendae, is the name the first day of every month in Ancient Rome .
Printed edition in the form of a table
Year
List of months
List of days of the week
List of numbers
Need for a calendar
The need for calendars arose in such extreme antiquity, when people could not yet read and write. .
Need for a calendar
The calendars determined the onset of spring, summer, autumn and winter, the periods of flowering plants, fruit ripening, the collection of medicinal herbs, changes in the behavior and life of animals, weather changes, the time of agricultural work, and much more.
Calendar tasks
Measurement of time intervals
Fixing dates
Calendar basis
Change of lunar phases and the change of seasons
Day
Night
Calendar systems
Different peoples at different times created and used three types of calendars:
solar
They tried to harmonize the length of the year with the frequency of processes occurring in nature.
Lunar
Wanted to coordinate the calendar month with the phases of the moon
lunisolar Wanted to agree on both
Sumerian calendar
One of the first creators of calendars were inhabitants of ancient Sumer . They enjoyed lunar calendar, based on the observation of the movement of the moon. In the ancient Sumerian year there were 354 days, and it consisted of 12 months of 29 and 30 days.
Babylonian calendar
Later, when the Babylonian priest-astronomers determined that a year consists of 365.6 days , the old calendar was reworked, it became lunisolar.
Ancient Persian calendar
ancient farmers had their own calendar and knew: there is a day in the year the day of the longest night and the shortest day , which is called winter solstice day . On this day, the ancient farmers celebrated the birth of the sun god Mitra.
ancient roman calendar
In the Roman Empire the months were of different lengths, But New Year invariably belonged to 1st of January - date of change of consuls. December 25 - celebrations winter solstice was a convenient time for New Year's festivities.
- Julius Caesar introduced the Julian calendar in 46 BC. . This calendar was based on the annual movement of the Sun in the 12 zodiac constellations . According to the imperial reform The year starts on January 1st. The first month of the year was named after the god Janus. The average length of the year in the interval of four years was equal to 365.25 days.
- IN Ancient Greece early summer had the longest day of the year 22nd of June.
- A chronology the Greeks led from the famous Olympic Games.
- Gregory XIII introduced the Gregorian calendar in 1582. (a new style). The need for changes was determined by the fact that the Julian calendar lagged behind the natural one.
- The date of the vernal equinox is March 21 , from the calendar leap years removed pertaining to last years centuries: 1600, 1700, 1800, etc.
- Acted in Rus' Julian calendar. Until the decree of Peter I (1700), Russians led their calendar "from the creation of the world", which took place 5506 BC.
- Beginning of the New Year celebrated where in September, after harvesting, and where - in March, on the day of the spring solstice.
- brought our reckoning in line with European and commanded celebrate the New Year in winter - January 1.
- Until October 1917, Russia lived according to the Julian calendar, "lagging behind" European countries by 13 days.
- On February 1, 1918, a decree was issued , who declared this day the 14th. This year was the shortest, consisting of 352 days
- In a number Muslim countries are still using lunar calendar , in which the beginning of the calendar months corresponds to the moments of the new moons.
- In a number of countries Southeast Asia, Iran, Israel, there are varieties of the lunisolar calendar , in which the change in the phases of the moon is consistent with the beginning of the astronomical year. The lunisolar calendar is used by Jews professing Judaism, to calculate the timing of religious holidays.
Riddles about time, about the calendar
There is an oak, there are twelve nests on the oak,
And in each nest there are four tits.
Where is all this stored?
Without legs, but running -
Doesn't end
Never back
Not returned.
(Time)
( Calendar)
The bar fell in all Rus',
On that bar
twelve trees,
Each has four branches.
The fat man is losing weight every day
And it won't get better.
(Year, months, weeks)
(Tear-off calendar)
Used sources
http://www.alkor-4.ru/kalendari_2011/uvartalnye_kalendari/kvartalnye_kalendari_na_2011_god/prn_prd2581.php
http://www.xrest.ru/original/160395/
http://arthic.ru/eg/2.htm
http://elitklub.info/forum/23-238-1
http://pritchi.diary.ru/?from=80
Thank you
for your attention!
Valentina Alekseeva
Age group: 6-7 years old (preparatory group)
Educational area: "Cognitive Development"
GCD theme: « Calendars are different»
Type of GCD: formation of a holistic picture of the world
NOD form: « The river of time»
Activities: playful, communicative, cognitive-research
Forms of organization: frontal
Planned result: the child shows initiative, independence and curiosity, actively interacts with peers and adults, has a developed imagination, social knowledge about the social world. The child has developed fine motor skills.
Target: To reinforce the concept in children « calendar» . Track significant changes that have occurred during certain periods time.
Tasks of joint cognitive-research activity.
Educational tasks:
1. Raise interest in your people and in their past.
2. Cultivate desire use calendar in everyday life.
3. To cultivate the need for friendly relations with other people through the organization of a group form of organization of activities.
Development tasks:
1. Develop thinking, memory, fine motor skills of hands.
2. To develop curiosity, initiative by creating a situation of choosing a place, participants in joint activities.
3. Develop the properties of involuntary attention by stimulating game situations.
4. Develop the ability to measure time with a calendar.
Learning tasks:
1. Continue to introduce children to calendar varieties and its purpose for people.
2. Teach how to measure the length with a folk measure - a span.
3. Help to master the ability to analyze, compare, generalize, classify, establish cause-and-effect relationships.
Principles preschool education (FGOS):
1. Enrichment of child development.
2. Building educational activities based on the individual characteristics of each child, in which the child himself becomes active in choosing the content of his education, becomes the subject of education.
3. The impact and cooperation of children and adults, the recognition of the child as a full-fledged participant in educational relations.
4. Support for the initiative of children.
5. Formation of cognitive interests and cognitive actions of the child.
6. Age appropriateness of preschool education.
Principles of education:
Promotion of a system of positive goals
Education through interaction
Creating a positive emotional background and an atmosphere of emotional upsurge
Learning principles:
Principle of activity - implementation a variety of activities.
The principle of subjectivity usage objects and their image.
The principle of accessibility
Means of education and learning:
Visual: map-panel « The river of time» . Ball. Small pictures, glue, napkins. multimedia presentation "Story calendar» .
Educational and methodical set:
1. From birth to school. Approximate general educational program of preschool education / Ed. N. E. Veraksy, T. S. Komarova, M. A. Vasilyeva. - M.: Mosaic-Sintez, 2014.
2. Federal state educational standard for preschool education (Order No. 1155 dated October 17, 2013).
3. Dybina, O. V. What was before ...: Games-journeys into the past of objects. – M.: TC Sphere, 2014.
GCD progress:
Stage 1. Discussion of a real event. Method: conversation.
Work with calendar:
Guys, what month is it? Find on calendar.
What is today's date? Determine what day of the week it is?
What did people come up with in order to find out a certain date? (Calendars) .
Stage 2. Setting the goal of the study. Methods: Emotional stimulation. Problem-search
I wonder when it came calendar. You know? Do you want to know? How can I do that? I want to go down the river time to know the history calendar. Who wants to travel with me? (spreads out « river» ). What does it look like? Guys, how can you travel on the river? Alright, let's go on our journey to... (steamboat).
From the green pier
The steamer pushed off
The children got up.
He stepped back first.
Step back.
And then he stepped forward.
Step forward.
And swam wait a little, along the river,
Wave-like movement of the hands.
Gaining full speed.
Walking in place.
Stage 3. Analysis-comparison, active discussion of demonstration illustrative or subject material. Methods: Gaining new knowledge. Development of cognitive interest.
The teacher shows the slides. The children look at the illustrations.
First stop.
Slide 2. Before calendars looked different. During excavations, scientists archaeologists found ancient stone and clay calendars made many centuries ago. Look at the slide, what do you notice? First calendar the Egyptians came up with - they were the first to determine the number of days in a year in order to know when to sow and when to harvest. The Egyptians divided the year into 12 months of 30 days each, adding 5 extra days at the end of the year. Thus the first appeared calendar.
Slide 3. During time the birth of Christianity official calendar The Roman Empire was sunny calendar called Julian. It was created by Emperor Julius Caesar (hence the name calendar) . ancient roman stone calendar: at the top are the gods who rule the days of the week, starting from Saturday. In the middle is the zodiac, and on the left and right are the numbers of the month.
Roman « farmer's calendar» . Three months on each side. With the sign of the zodiac, the name of the month, the number of days in the month, the length of day and night in hours, the protecting deity, work in the field and the most important holidays.
Slide 4. But the Roman priests confused calendar. This mistake was corrected by Emperor Augustus. final version calendar introduced by Pope Gregory XIII, Gregorian calendar(a new style that is valid to this day.
Slide 5. Do you think the ancient Slavs had calendar? Yes, but it was different from ours modern calendar. Among the ancient Slavs, the year was also divided into 12 months, the names of which were closely associated with natural phenomena.
January - Slavic name "Prosinets". Prosinets - from the emerging blue of the sky in January. Deforestation time
February - "Sechen", "Lute". Sechen - because it was coming time cutting trees to clear the land for arable land. Fierce - severe frosts
March - "Dry" from the spring warmth, draining moisture, in the south - "Berezozol", from the action of the spring sun on the birch, which in this time begins to fill with juice and buds. "Protalnik" - it is clear why.
April - Old Russian names April: "Snegogon", "Pollen". Blooming gardens
May - the names "Traven". Nature is green and blooming.
June - "Izok". Izok is a grasshopper, there were especially many of them in June.
July - "Cherven" - the name - from fruits and berries, which in July are reddish (scarlet, red). Also called "Lipets" - linden blossoms in July. And just - "The crown of summer".
August. And the Slavs still suffer - "Serpen", "Zhniven", - time to mow the wheat.
September - "Frowning"- the weather started to deteriorate.
October - A wonderful Slavic name - "Leaf fall" - falling leaves from trees. Otherwise - "Dirty Man", from autumn rains and abysses.
November - "Breast", from piles of frozen earth with snow.
December - "Junior" - cold, cold!
So what have we learned about the ancients calendars?
Slide 6. The first handwritten calendars. Calendars were without tear-off leaves, they looked like books. They reported miscellaneous information related to astronomy and counting time. Look at the slide, what do you notice?
Slide 7. In ancient Rus', the score time was led by the four seasons. The New Year began first in the spring - on March 1. Tsar Ivan III ordered September 1 to be considered the beginning of the year. Tsar Peter I transferred Russia to the European chronology - the new year began on January 1.
What can you say about handwritten calendars?
Third stop.
The steamboat is already waiting for us (poem "Steamboat").
Now there are the most different calendars. And what calendars you know? All these calendars have common features. Let's consider. Than everything calendars are similar? (Unfolds different types of calendars engages children in dialogue).
Stage 4. Work in subgroups: sorting and fixing small illustrations on the panel « river of time» . Method: Stimulate children's relationship
Look how many pictures I have on the table. Are you familiar with the items in the pictures? We met with these items today, right? This image calendars from ancient times to the present day. Now we will distribute these pictures on our "River time» . What needs to be done? I suggest you get into groups. How many groups will there be? Why? Who wants to look for pictures at the bus stop "Past"? Who will select pictures for the next stop? Who will work with me?
Stage 5. Assembling a general table, comparing the results of the study. Method: Stimulating and correcting the actions and attitudes of children.
Check again which pictures you have selected. Let's go stick it.
Classify. Arrange the pictures in a certain order.
Look, all the pictures are located correctly? Is it in your time lies each?
Stage 6. Hanging the table on the wall of the group room. Method: Consolidation and repetition.
Today we made an exciting trip along the river time. You are great, I really enjoyed traveling with you. And you? What was the most difficult part of the journey? Tell me, who do you want to tell about our trip?
Stage 7. Complementing the table with children in independent activities.
Have you noticed that we still have room? Why? I wonder what count items might be in the future
History of the development of the calendar The main goal of the work is to highlight the history of the origin of the calendar and its development to the present day. The peoples who lived on the territory of Western Europe left behind giant structures of stone blocks standing in a circle - cromlechs. The most famous cromlech, Stonehenge in southwest England, is 4,000 years old. In this observatory, the movement of the Sun, Moon and planets was observed. Next Primitive people counted the days on a bone plate. The marks on this bone record the movement of the Moon across the sky. Lines connecting various stone blocks indicate the most important points of sunrise and sunset of the Sun and Moon. The main circle of stones, some of which are still preserved, had 29 large gates and a small arch, i.e. 29 and a half entrances. This corresponded to 29 and a half days of the synodic month from one full moon to another. Every day a stone was placed on one portal further .For one month, he goes around the entire structure. The pits represented the lunar calendar. Every day the stone was transferred to the next hole. The ancient inhabitants of Mesopotamia already knew how to distinguish individual constellations located along the visible annual path of the Sun among the stars. Later they became known as the zodiac belt. Babylonian astronomers divided the day into 24 hours and dedicated each of them to one of the seven planets known to them, including the Sun. They started counting hours from Saturday, the first hour of which is “ruled” by Saturn, the second by Jupiter, etc. round. It turned out that the first hour of Sunday was "ruled" by the Sun, the first hour of Monday - by the Moon ... According to the luminary of the first hour of each day, the days of the week, preserved in many languages, got their names. Further, the High Priest, commander, writer Gaius Julius Caesar, before starting a calendar reform, visited Egypt, where he got acquainted with the Egyptian solar calendar. In honor of this great Roman, the month of July was named. And the calendar itself, transformed at the behest of Caesar by Sosigen, is called Julian. Pope Gregory XIII went down in history as a reformer of the calendar. On the occasion of the introduction of the Gregorian calendar, a commemorative medal with the profile of Gregory XIII was minted in Rome. The Latin signature below it read: "The best high priest." On the reverse side is the sign of the constellation Aries. From heavenly bodies, the Sumerians believed, not only the change of seasons, but also the fate of a person depends. With such plows, the ancient Sumerians plowed the land. And the time of the start of work was “indicated” by the calendar, which was compiled by the priests. In Babylon, astronomers observed the movement of the luminaries from the upper platforms of the ziggurats of the stepped 5 or 7-story pyramids. This engraving depicts the construction of the Tower of Babel described in the Bible, the prototype of which was one of the ziggurats. This iconic stone is the Babylonian calendar. It has all the full moons for 104 BC marked on it. The ancient Chinese believed that five elements dominate the Universe - Fire, Water, Metal, Wood and Earth, which constantly interact: water extinguishes fire, fire melts metal, metal cuts wood, wood grows in the earth, earth gives birth to water. Representations of the five elements easily form the basis of the 60-year calendar. The Maya followed the movement of heavenly bodies from structures similar to the towers of modern observatories. And their observations they stated in manuscripts. This page from a miraculously surviving manuscript describes the movement of Venus. The Maya created special calendar systems. They were so complex that only dedicated astronomer priests could figure them out. Calendar This relief depicts Pharaoh Akhenaten with his wife Nefertiti and three daughters. Akhenaten introduced the cult of the god of the solar disk Aten, therefore the Sun with outstretched arms - rays - the symbol of Aten shines above the royal couple. The priests divided the year into 12 months of 30 days, and each month - into three weeks of 10 days, or rather, two five days each. Thus, the solar calendar appeared in Egypt. Egyptian priests determined the dates of religious holidays and according to the lunar calendar. The gods crowned with red discs are symbols of the days of the week, large circles are the months of the year. The Hellenes revered the physical perfection of man so much that even the reckoning began from the first Olympic Games. This bas-relief depicts the god Dionysus, the patron of viticulture among the ancient Hellenes, and the seasons following him - Spring, Summer, Autumn - in the form of young girls (at first, the Greeks singled out only three seasons). Their duty was to open the doors to the sun god when he rode out in his chariot. Roman parapegma. At the very top are depicted seven gods, patrons of the days of the week, and the day of the week is marked with a wand under them. The stick on the right indicates the number, and on the left - one of the months enclosed in the circle of the zodiac. By the end of the 8th century BC. some Roman months already have names. The first month of the year was named Martius, after Mars, the god of war. The second is Aprilus. This word comes from the verb aperire - to open, because it was then that the buds on the trees pecked. The third month Maius was dedicated to the goddess of fertility Maya, and the fourth Junius was dedicated to the wife of Jupiter, the goddess Juno. All other months had only serial numbers: quintilis, sextilis, octavus, novem, desimus. When painting the Vladimir Cathedral in Kyiv, V. M. Vasnetsov dedicated one of the frescoes to the baptism of Rus' by Prince Vladimir. Together with Christianity Ancient Rus' The Julian calendar also came from Byzantium. For many centuries, our ancestors traditionally celebrated the New Year not on January 1, as was established in the Julian calendar, but on March 1. But when the 7000th year “from the Creation of the world” began in Rus', the beginning was officially postponed to September 1. So it was celebrated for more than two centuries. On December 19, 7208, "from the Creation of the world", Tsar Peter I signed a decree that ordered the Russians to consider the next, 7209th year, the year 1700 from the birth of Christ, and celebrate the New Year on January 1. However, having postponed the New Year holiday and started a new countdown, Russia still lived according to the Julian calendar, diverging more and more in dating events from countries that already lived according to the Gregorian calendar. This continued until 1918.
