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How did Inca make such precise calculations in astronomy architectural engineering and mathematics?

They recorded numbers using the knots on a string called a quipu.


How did the Inca make such precise calculations in astronomy architecutral engineering and mathematics?

The Inca achieved precise calculations in astronomy, architectural engineering, and mathematics through a combination of keen observation, practical experience, and sophisticated methods. They utilized tools such as the quipu for accounting and record-keeping, allowing them to manage complex data effectively. Their deep understanding of celestial movements informed agricultural practices and construction, while their advanced engineering techniques, including the use of local materials and innovative designs, enabled them to create durable structures. This integration of knowledge across disciplines contributed to their remarkable precision in various fields.


When do you use the number?

The number is used to quantify, identify, or categorize items, measurements, or concepts. In mathematics, it serves as a fundamental element for calculations and comparisons. In everyday life, numbers help us manage time, finances, and data. Additionally, they are essential in fields such as science and engineering for precise communication and analysis.


Which is an example of how mathematics may be used in the collection or evaluation of data?

Mathematics can be used to complete precise measurements that can be easily presented and evaluated in mathematical form.


What jobs use degrees and radians and why?

Jobs in fields such as engineering, physics, mathematics, and architecture frequently utilize degrees and radians. Engineers use these measurements for designing structures and analyzing forces, while physicists apply them in studying wave functions and rotational motion. Mathematicians use both units in trigonometry and calculus to solve problems involving angles and periodic functions. Overall, these measurements are essential for precise calculations and modeling in various scientific and technical disciplines.

Related Questions

How did Inca make such precise calculations in astronomy architectural engineering and mathematics?

They recorded numbers using the knots on a string called a quipu.


How did the Inca make such precise calculations in astronomy architectural engineering and mathematics?

They recorded numbers using the knots on a string called a quipu.


How did the Inca make such precise calculations in astronomy architecutral engineering and mathematics?

The Inca achieved precise calculations in astronomy, architectural engineering, and mathematics through a combination of keen observation, practical experience, and sophisticated methods. They utilized tools such as the quipu for accounting and record-keeping, allowing them to manage complex data effectively. Their deep understanding of celestial movements informed agricultural practices and construction, while their advanced engineering techniques, including the use of local materials and innovative designs, enabled them to create durable structures. This integration of knowledge across disciplines contributed to their remarkable precision in various fields.


What is the significance of the number 0.0831 in the context of mathematical calculations?

The number 0.0831 is significant in mathematical calculations because it represents a decimal fraction that can be used in various mathematical operations, such as multiplication, division, addition, and subtraction. It is commonly used in scientific calculations and engineering applications due to its precise value.


What is the roll of mathematics in engineering?

Maths is used in engineering to work out the precise necessary measurements needed for the tasks, for example: the pressure that will be needed to hold the transport bridge up safely. or the pressure that a rocket will need to take off from the ground


Why was Coordinate Geometry invented?

Coordinate geometry was invented to provide a way to describe geometric shapes and relationships using numerical coordinates. This system allows for precise measurements and calculations that are essential for various fields such as mathematics, physics, and engineering. It provides a powerful framework for studying geometry in a more rigorous and systematic way.


What is Precise Value?

Precise value refers to an exact measurement or quantity without any ambiguity or rounding. It provides an accurate representation of the value being measured, ensuring that calculations or comparisons are as accurate as possible. This is often important in fields such as science, engineering, and finance where precision is essential.


How has engineering science improved engineering?

Engineering science has improved engineering and how precise engineers can be with the advancements in technology and new machinery.


Why should your calculations never be more precise than your measurements?

Your calculations can be more precise, but the final result should be rounded, to avoid giving the impression that it is more exact than is justified by the measurements.


Is engineering for students who are good at math but bad at essay writing in general?

It sure helps if you're good at arriving at precise calculations. However, being "bad at essay writing" is not a benefit; it may be less of a detriment in engineering than in, say, English, but it's possible to be an engineer and a good writer.


What does mathematics have to do with thermodynamics?

Thermo - means heat dynamics - implies movement. Thermodynamics at its simplest is the study of the movement of energy and in particular heat energy. It is actually a mathematical subject and usually involves calculations and hence mathematics. There is actually not a huge amount of chemistry.


How does the Percision of measurements affect the precision of science calculations?

The precision of measurements affects the precision of scientific calculations by influencing the accuracy of the final result. More precise measurements lead to more accurate calculations as there is less uncertainty or variation in the data used for analysis. In contrast, less precise measurements can introduce errors and inaccuracies into the calculations.