The semimajor axis of mercury is 0.387 AU. Using Kepler's third law calculate its orbital period.
Q: select the most accurate statement
A: 1. Parallax is the apparent displacement of an object with respect to the background, because of a…
Q: The synodic periods for Jupiter and Saturn are 399 and 378 days, respectively. Calculate their…
A: Given data: The synodic period of Jupiter, Sj=399 days. The synodic period of Saturn, Ss=378 days.…
Q: A superior planet is having a sidereal period of 1.6 years. Calculate the synodic period?
A: A planet is said to be superior to another planet if the second planet's orbit lies inside the first…
Q: If the semi-major axis, a, is measured in AU and the orbital period, p, is measured in years, then…
A: Mass of jupiter = 4.5e7 MSun
Q: Calculate the period T of a planet
A: Given data: The period of the planet is: T (earth years) The mass of the sun is: M= 1.989×1030…
Q: Calculate the period T of a planet whose orbit has a semimajor axis of 4.9 AU
A: To determine: The time period of the planet Given: Semi-major axis of the planet is, 4.9 AU
Q: If the semi-major axis, a, is measured in AU and the orbital period, p, is measured in years, then…
A: No, its too big. We know Jupiter as like other planets rotates around sun. Although the Jupiter not…
Q: An asteroid is observed to be on a superior orbit with a synodic period of 441.19 days. What are the…
A: Express the equation connecting synodic period and sidereal period. 1Psid=1P0-1Psyn -----1 Here, P0…
Q: Comet Halley has a semi-major axis of 17.7 AU. (The AU, or Astronomical Unit, is the distance from…
A: We are given semi major axis. We are also given eccentricity. The aphelion distance is given as…
Q: The number of "planets" in our solar system has changed from the time of Ptolemy to the present.…
A:
Q: Explain Gravitation and Kepler’s Laws of Planetary Motion?
A:
Q: Derive a formula to calculate the orbital radius of a superior planet in the unit of Astronomical…
A: Use Newton's law of gravitation
Q: Calculate the length R of the semimajor axis of a planet whose period is 220 days.
A:
Q: 10. Match Kepler Laws with the correct description. Kepler's Second Law Kepler's Third Lav Kepler's…
A:
Q: For what value of eccentricity, e, would the semi-major axis be the same as the Aphelion distance?…
A: Aphelion is the point in the planet/earth orbit that is farthest from the sun(at foci of the orbit)…
Q: Calculate the period T of a planet whose orbit has a semimajor axis of 40 AU.
A: T2=ka3T is the period in earth yearsa is the length of semimajor axis in astronomical units
Q: Calculate the period T of a dwarf planet whose orbit has a semimajor axis of 320AU
A: The expression for the required time period is,
Q: Which of Kepler's law can be used to estimate the mass of a distant star system based on the period…
A: Please see the answer in step 2.
Q: An asteroid is observed to be on a superior orbit with a synodic period of 466.6 days. What are the…
A: Express the equation connecting synodic period and sidereal period. 1Psid=1P0-1Psyn -----1 Here, P0…
Q: planets orbit the same star in circular orbits. One orbits at a distance of 167AU and takes 1.5days…
A: The unit of distance is a centimeter in the CGS system. In physics, distance is defined as the…
Q: Calculate the period T of a planet whose orbit has a semi major axis of 15 AU.
A: Given the semi major axis of the orbit is a= 15 AU.
Q: 9. Pluto's orbit around the Sun is highly elliptical compared to the planets in our Solar System. It…
A: Perihelion distance = 29.7 AUAphelion distance = 49.5 AUTo find = a) Semi-major axis…
Q: Sort the characteristics according to whether they are part of the a cocentric model, the…
A: A geocentric model is a concept of the solar system in which Earth is speculated to be the center of…
Q: Use Kuiper Belt Object Haumea's eccentricity, e = 0.189, semimajor axis, a = 43.3 AU, and Period, P…
A:
Q: What is the period of an object orbiting the Sun at 1.524 AU?
A: We can use Kepler's third law to find the orbital period and states that the distance of a planet…
Q: Calculate the period T of a planet whose orbit has a semimajor axis of 33AU
A: The expression for the required time period is,
Q: A new planet is discovered orbiting a distant star. Observations have confirmed that the planet has…
A: Given data: The radius of the circular orbit, R=30 AU=4.488×1012 m Time period, T=140 days=1.21×107…
Q: A newly discovered planet orbits a star with the same mass as the Sun with a semi-major axis of…
A: (13) According to the Kepler’s third law, The distance between the Sun and planet at the…
Q: Mars is 1.53 times as far from the Sun as Earth is. Use Kepler's third faw to predict the time…
A:
Q: Scientists at NASA announced the discovery of a new solar system containing four planets. The…
A: The orbital period is dependent on the distance between the sun and the planet. With the help of the…
Trending now
This is a popular solution!
Step by step
Solved in 3 steps
- Explain why Galileo's discovery of the four Galilean moons of Jupiter helped disprove the geocentric model of the solar system.Two planets were discovered after the life of Newton. The orbital semi - major axis of the planet discovered by Adams and LeVerrier is 30.06 AU. Calculate the period of revolution.Ma years, what is 2. Saturn has an orbital period of 29.46 years, and its average distance to the sun is 9.54 A.U. If Venus has an orbital period of 0.62 its average distance to the sun in astronomical units (A.U.)? M stance A.U., Conceptual Physics Reading and Study Workbook Chapter 14
- Let's define the gravitational pull between Earth and the Sun as 1 Earth-pull. What is the pull that Jupiter has on the Sun in Earth-pulls? Jupiter has a mass of 318 Earth masses. Jupiter is located at 5.20 AU from the Sun.Between mars and Jupiter the asteroid ceres orbits the sun at an average radius of 2.766 AU. Use kelpers third law to calculate the time in earth it takes for ceres to make one complete orbit. Round up your answer to the correct number of significant digits.Question 3. Astronomers are consistently finding new moons of Jupiter, both big and small. Suppose astronomers discovered a new moon called Yelruh that orbits a distance of 5.63x108 m from the surface of Jupiter. Using the information for another moon of Jupiter, calculate Yelruh's orbital period.
- Measure the periods for each planet. Measure the orbital radius of each planet. Calculate the ratios of square of the periods and cubed of the radii for the planets. Compare the results and comment if your result confirms Kepler's Third Law. (Pic1 has the yellow and bluw planets points plotted. Pic2 has the grey and red planet plots listed.)A planet in a circular orbit about a star has an orbital radius of 3.70 au . If the star has a mass that is 1.80 times our own Sun's mass, determine the time ? , in units of Earth years, for one revolution of the planet around the star.T = ? Earth yearsHow long (in Earth-Years) does it take Saturn to orbit the Sun? Use these values of (average) distance to the Sun. Venus: .72 A.U. Saturn: 9.5 A.U. Give your answer in (Earth) years to the correct number of significant figures.
- Imagine Saturn was knocked out by its orbit by a massive asteroid. It is now located a slightly further away from the sun at 10.17AU. Using Keplers third law, calculate its new period of revolution, in earth years.What is the orbital period (in years) of a Kuiper Belt Object (KBO) orbiting the Sun at 43.8 AU? ГyearsCeres, the largest asteroid and a dwarf planet, has a semi-major axis of about 2.74 AU. What is Ceres' orbital period in years about the Sun ?