Math, Sciences, and Inventions derived from Math and Science
Like any other people, the Incas used mathematics in their everyday lives. With their use of mathematics, came the use of science and technology. Mathematics helped the Incas in many ways. The Incas advanced in mathematical, scientific, and technological ways. Their inventions and resources provided evidence for these advances. They developed many systems and creations based on mathematics, science, and technology. Many of the Incas' developments and inventions are still being used today.
One of the Incas' most popular and important inventions was the quipu. This creation represented a great advance in technology for the Incas. The quipu was a crafted tool that was used as a communication system in the Incan civilization. The components in the quipu consisted of a series of strings with some knots that were tied by Incan people. The strings were held together by a larger thread. The Incas often gathered the strings from animals like a llama or alpaca, or from cotton plants. There were three main factors that determined the messaged that was being communicated through the quipu: the size of the knots, distance between knots, and number of knots. Despite the fact that the quipu was used very often, not everyone knew how to use it. Only special officials in the civilization were trained to use the quipu.
The Incas were also very successful in astronomy and science. The Incas studied astronomy. One of the Incas' most successful scientific advances dealt with astronomy. Incan astronomers, who were usually priests, studied the sun, the moon, and the planets, Venus in particular. The Incas had to find a way to make these observations. For this reason, the Incas made a great advance in science when they built the sun temples. The sun temples were astronomical observatories that were located at Machu Picchu and Pissac. They used the sun temples to study the positions of the sun, the moon, and the planet Venus. The sun temples were a scientific advance in the Incas civilization.
The Incas greatest advance in mathematics and science is probably the Incan calendar. The calendar had strong ties to astronomy.The Incan calendar was lunisolar. This means that the calendar was based on both the phases of the moon and the sun.The Incan calendar was created to keep track of religious festivals and ceremonies. The Incas used many astronomical observations to come up with their mathematical calculations.
The scientific calculations behind the Incan calendar were based on astronomy. The Incas calculations were based on the positions of the sun and the moon. This is why the Incan calendar was lunisolar; the calendar was related to both the sun and the moon. To convey both their lunar and solar observations, the Incan calendar was made of two parallel calendars; a solar calendar and a lunar calendar. This is how the Incas came up with their scientific calculations behind the Incan calendar.
Obviously, the Incan calendar had some mathematical calculations behind it as well. The Incas calculated that there were twelve months. In each month, there were three weeks, and every week had ten days. These were the mathematical calculations behind the Incan calendar.
If you want to know some more of the Incas' scientific, technological, and mathematical developments, read the chart below.
One of the Incas' most popular and important inventions was the quipu. This creation represented a great advance in technology for the Incas. The quipu was a crafted tool that was used as a communication system in the Incan civilization. The components in the quipu consisted of a series of strings with some knots that were tied by Incan people. The strings were held together by a larger thread. The Incas often gathered the strings from animals like a llama or alpaca, or from cotton plants. There were three main factors that determined the messaged that was being communicated through the quipu: the size of the knots, distance between knots, and number of knots. Despite the fact that the quipu was used very often, not everyone knew how to use it. Only special officials in the civilization were trained to use the quipu.
The Incas were also very successful in astronomy and science. The Incas studied astronomy. One of the Incas' most successful scientific advances dealt with astronomy. Incan astronomers, who were usually priests, studied the sun, the moon, and the planets, Venus in particular. The Incas had to find a way to make these observations. For this reason, the Incas made a great advance in science when they built the sun temples. The sun temples were astronomical observatories that were located at Machu Picchu and Pissac. They used the sun temples to study the positions of the sun, the moon, and the planet Venus. The sun temples were a scientific advance in the Incas civilization.
The Incas greatest advance in mathematics and science is probably the Incan calendar. The calendar had strong ties to astronomy.The Incan calendar was lunisolar. This means that the calendar was based on both the phases of the moon and the sun.The Incan calendar was created to keep track of religious festivals and ceremonies. The Incas used many astronomical observations to come up with their mathematical calculations.
The scientific calculations behind the Incan calendar were based on astronomy. The Incas calculations were based on the positions of the sun and the moon. This is why the Incan calendar was lunisolar; the calendar was related to both the sun and the moon. To convey both their lunar and solar observations, the Incan calendar was made of two parallel calendars; a solar calendar and a lunar calendar. This is how the Incas came up with their scientific calculations behind the Incan calendar.
Obviously, the Incan calendar had some mathematical calculations behind it as well. The Incas calculated that there were twelve months. In each month, there were three weeks, and every week had ten days. These were the mathematical calculations behind the Incan calendar.
If you want to know some more of the Incas' scientific, technological, and mathematical developments, read the chart below.