0
He once saw an apple falling from a tree, and he wondered whether the force that pulled that apple to earth might also control the movements of planets. In the next 2o years, Newton perfected his theory. Using mathematics, he showed that a single force keeps the planets in their orbit around the sun. He called this force gravity (:
What else can I help you with?
How did Newton use observations of nature to explain the movements of the planets?
He once saw an apple falling from a tree, and he wondered whether the force that pulled that apple to earth might also control the movements of planets. In the next 2o years, Newton perfected his theory. Using mathematics, he showed that a single force keeps the planets in their orbit around the sun. He called this force gravity (:
How did newton use observations of nature to explain the movement of the planets?
He once saw an apple falling from a tree, and he wondered whether the force that pulled that apple to earth might also control the movements of planets. In the next 2o years, Newton perfected his theory. Using mathematics, he showed that a single force keeps the planets in their orbit around the sun. He called this force gravity (:
Who could not predict the movements of the planets accurately?
Ancient astronomers like Ptolemy and Copernicus could not accurately predict the movements of the planets because they were working with models that did not accurately capture the true nature of the solar system. Their geocentric models, which placed the Earth at the center of the universe, were unable to accurately predict the movements of the planets due to their circular orbits and epicycles. It wasn't until Johannes Kepler formulated his laws of planetary motion based on observations by Tycho Brahe that more accurate predictions became possible.
What was the nature of the planets and how did they orbit the sun?
1. Nature of the Planets
Which term describes a observed pattern in nature without any attempt to explain it?
The term that describes an observed pattern in nature without any attempt to explain it is "empirical observation." These observations are based on direct experience or experiments and serve as the foundational data that can lead to theories or explanations in scientific inquiry.
What are observations that does not include measurements?
Observations that do not include measurements are qualitative in nature, such as color, texture, smell, taste, or behavior. These observations rely on the senses and can be subjective in nature. They provide descriptive information about the characteristics of an object or phenomenon.
Which is a set of commonly accepted scientific ideas and assumptions?
A scientific theory is a set of commonly accepted scientific ideas and assumptions that explain a wide range of observations and have been rigorously tested. These theories are supported by evidence and have withstood repeated experiments and observations.
Is scientific laws to explain why something happen?
Scientific laws describe regular patterns or relationships in nature, but they do not explain why these patterns occur. Laws are empirical generalizations based on repeated observations and experiments. Theories are what provide the explanatory framework for why these patterns or relationships exist.
What force of nature deteremines the benefic or malefic nature of planets?
None. Following the laws of nature, planets are astronomical objects, and do not have moral attributes such as benificence or malevolence.
What is the person who uses observations and clear reasoning to understand the processes and patterns in nature called?
what is the person who uses observations and clear reasoning to undrestand the processes and patterns in nature are called
Explain nature and scope of business economics?
Explain the nature & scope of business economics.
What is the purpose of the planets rotation?
Your thinking is wrong. The rotation of a planet has not "been made" for a purpose. Planets rotate because of a law of nature called "the conservation of angular momentum". The dust cloud from which the a star and its planetary system forms had angular momentum (internal movements) and as gravity drew this matter together this momentum ends up as the spin of the star, its planets and the orbit of the planets round the star.
