Explain how did Kepler discovered his Laws of Planetary Motion.
Q: How do you calculate the mass of a planet in space?
A: Let M be the mass of the planet, R be the distance of the planet from the reference frame, T be the…
Q: How did Newtons law of Gravitation explain Keplers 3rd Law
A: statement of kepler's 3rd law the square of the orbital period of a planet is directly proportional…
Q: Match Kepler Laws with the correct description. * Kepler's First Law Kepler's Second Law…
A: Given:-matching statements of keplers law
Q: What did Kepler discover about the periods of planets and their distances from the Sun? Was this…
A: According to Kepler the planet orbits the sun along a ellipse path. Ellipse contain 2 foci and it…
Q: Mars is 1.53 times as far from the Sun as earth is. Use kepler's third law to predict the time…
A: Distance of mars = 1.53 × distance of earth We need to compare the time of revolution for Mars to…
Q: QUESTION 5 Which of the following heavenly bodies has the most elliptical orbit about the sun? a.…
A: We can find which heavenly body has the most elliptical orbit by looking at its orbital…
Q: Why does Venus take a shorter time to orbit the Sun in the heliocentric model, than to exhibit its…
A: Introduction: In the heliocentric model, the sun is at the centre and the planets revolve around it…
Q: Explain how Copernicus’s heliocentric model if the solar system explained the retrograde motion if…
A: Ptolemy's model of the solar system was geocentric, where the sun, moon, Plants and stars all orbit…
Q: How is Kepler's law different from Newton's law of motion
A: Newton’s law describe every motion you will ever experience. You can use them to calculate anything…
Q: If you know the radius of a planet, what additional information besides universal constants do you…
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Q: The planet Neptune has an orbital radius around the Sun of about 4.50 x 10 m. What is its period?
A: Given, r=4.50×1012m
Q: What are the shapes of the orbits of the planets
A: Here we will use Kepler first law to answer this question.
Q: Suppose a planet sweeps out an area, call it A, in one day. In terms of A, Kepler's second law tells…
A: Kepler’s second law states that a planet sweeps out equal areas in equal intervals of time.
Q: Mars is 1.53 times as far from the sun as earth is. Use keplers third law to predict the time…
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Q: Mars is 1.53 times as far from the Sun as Earth is. Use Kepler's third faw to predict the time…
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Q: Which phrase or phrases about Kepler's laws of planetary motion are true? - the moon is perfectly…
A: Kepler's law described the planetary motion. The moon is perfectly round done not related to the…
Q: Explain why Galileo's discovery of the four Galilean moons of Jupiter helped disprove the geocentric…
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Q: Because of its changing proximity to the Sun, which property does Kepler's Second Law of Planetary…
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Q: outline kepler’s 3 laws.
A: In this question we have to outline the Kepler's Three Planetary Laws.
Q: The planet Jupiter orbits the Sun once every 12 Earth years. The Earth orbits the Sun at an average…
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Explain how did Kepler discovered his Laws of Planetary Motion.
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- State the mathematical statement of third kepler's law.A newly discovered planet orbits a distant star with the same mass as the Sun at an average distance of 122 million kilometers. Its orbital eccentricity is 0.5. 1. Find the planet's orbital period. Express your answer in years to three significant figures. 2. Find the planet's nearest and farthest orbital distances from its star. Express your answers in millions of kilometers to three significant figures separated by a comma.In terms of Kepler’s 2nd law, what is the significance of these areas?
- Copernicus's heliocentric model and Ptolemy's geocentric model were each developed to provide a description of the solar system. Both models had advantages that made each an acceptable explanation for motions in the solar system during their time. Sort each statement according to whether it is an advantage of the heliocentric model, the geocentric model, or both. Select the appropriate items to their respective bins. Heliocentric Rooted in widely accepted religious beliefs regarding Earth's place in the universe Explained planetary motions and brightness changes most simply Predicted planetary positions accurately over relatively short time periods Planetary orbits and motions based on Greek ideologies of perfect form and motion Geocentric Both geocentric and heliocentricGalileo presented strong evidence against the geocentric theory and in favor of the heliocentric theory. Describe three important observations he made with his telescope.What was so significant about Tycho Brahe's observations of the position of the planets that enabled Kepler to eventually come up with his theory that planets orbit the Sun in ellipses rather than circles? If Kepler did not have access to Tycho's data, do you think he would have came up with the same theory, or do you think he would have preferred either the Copernican or Ptolemaic theory?
- In 3-5 sentences, describe how Copernicus developed his model of the solar system. In your answer, include an explanation for why his model was, or was not, readily accepted at the time.The geocentric model, in all of its complexity, survived scientific scrutiny for almost 1,400 years. However, in modern astronomy, scientists seek to explain the natural and physical world we live in as simply as possible. The complexity of Ptolemy's model was an indicator that his theory was inherently flawed. Why, then, was the geocentric model the leading theory for such a long time, even though the heliocentric model more simply explained the observed motions and brightness of the planets? Check all that apply. ☐ The geocentric model conformed to both the philosophical and religious doctrines of the time. ☐ The heliocentric model did not make noticeably better predictions than the geocentric model. From Earth, all heavenly bodies appeared to circle around a stationary Earth. The complexity of the geocentric model was appealing to most ancient astronomers. Ancient astronomers did not observe stellar parallax, which would have provided evidence in favor of the heliocentric model.help please According to Kepler's third law, if planet A takes 14 years to travel around its star at a distance of 3 AU. then how many years will planet B take to orbit at a distance of 102 AU.
- Kepler's 1st law says that our Solar System's planets orbit in ellipses around the Sun where the closest distance to the Sun is called perihelion. Suppose I tell you that there is a planet with a perihelion distance of 2 AU and a semi-major axis of 1.5 AU. Does this make physical sense? Explain why or why not.What is Keplers second law in your own wordsWrite down Kepler’s three laws of planetary motion. Why was it important realize that planets farther away from the sun travel slower through space than planets closer to the sun?