Determine the semi-major axis and inclination for a Sun-synchronous, repetitive orbit, with repetition factor Q =...

Mass(Solar Masses) Semi Major axis(AU) Sun 1 0.004967199691804744 Jupiter 0.0009546133303706552 5.2033630099999995 Considering the following variables of...

Mass(Solar Masses) Semi Major axis(AU) Sun 1 0.004967199691804744 Jupiter 0.0009546133303706552 5.2033630099999995 Considering the following variables of the sun and jupiter. These bodies orbit their barycenter where the semi major axis is from the barycentre If jupiter has an orbital period of T=4331 days,what is the velocity of the sun around the barycentre

A satellite has these orbital elements: -- semi-major axis = 10,900 km -- eccentricity = 0.1...

A satellite has these orbital elements: -- semi-major axis = 10,900 km -- eccentricity = 0.1 -- inclination = 60 degrees -- longitude of the ascending note = 175 degrees -- argument of perigee = 90 degrees -- true anomaly = 90 degrees Where is the satellite located in its orbit?

A satellite has these orbital elements: -- semi-major axis = 10,900 km -- eccentricity = 0.1...

A satellite has these orbital elements: -- semi-major axis = 10,900 km -- eccentricity = 0.1 -- inclination = 60 degrees -- right ascension of the ascending node= 175 degrees -- argument of perigee = 90 degrees -- true anomaly  = 90 degrees a. Is this a direct or retrograde orbit? b. Where is the satellite located in its orbit? c. Is perigee in the northern or southern hemisphere? d. Is this a circular, elliptical, parabolic, or hyperbolic orbit? Show your...

Spacecraft orbit Initial orbit radius (km) 7000 Comet properties semi major axis (Au) 1.5 eccentricity 0.2...

Spacecraft orbit Initial orbit radius (km) 7000 Comet properties semi major axis (Au) 1.5 eccentricity 0.2 inclination (deg) 10 argument of perihelion (deg) 60 Comet mass(kg) 3E16 Consider the requirement to transfer a satellite, initially in an elliptical orbit about the Earth that is to be to be placed in orbit about a Comet. You should note from the data that is provided to you that this target Comet orbit is neither circular nor a coplanar orbit with the initial...

Use least squares to find Keplers 3rd Law Planets Mercury & Neptune Mercury: Semi-Major Axis 0.387098...

Use least squares to find Keplers 3rd Law Planets Mercury & Neptune Mercury: Semi-Major Axis 0.387098 AU Rotate Around Sun in Earth Years: 0.240846 Neptune: Semi-Major Axis 30.11 AU Rotate Around Sun in Earth Years: 164.8

Determine the distance a satellite is from a planet if its orbit is elliptical with a...

Determine the distance a satellite is from a planet if its orbit is elliptical with a eccentricity of 0.298 if it is π/6 radians from apoapsis position. The semi-major axis of the orbit is “a”.

In 1542 Copernicus was able to calculate the sizes (we now call this the semi-major axis)...

In 1542 Copernicus was able to calculate the sizes (we now call this the semi-major axis) of the orbits for all of the planets visible without a telescope. The results of his calculations are shown in Module 2c. In 1609 Galileo measured the positions of the four largest moons of Jupiter. A portion of these observations is also shown in Module 2c. From these observations, it is trivial to determine the period of the orbits of these moons. With a...

1) An exoplanet orbits a star in an ellipse with semi-major axis 0.81⨯1012 m and an...

1) An exoplanet orbits a star in an ellipse with semi-major axis 0.81⨯1012 m and an eccentricity of 0.53. What is the distance from the star to the opposite focus of the ellipse? 2)A satellite is placed in geosynchronous orbit around an exoplanet of mass 67⨯1024 kg and radius 73⨯106 m. If the planet's day is 95.6 hours, at what altitude should you place the satellite?

Explore the dependence of sunlight on earth-sun distance. The solar constant, S_0 is the solar radiation...

Explore the dependence of sunlight on earth-sun distance. The solar constant, S_0 is the solar radiation at zero zenith angle at the mean earth-sun distance, R_m. As we learned in class the intensity of solar radiation decreases with the square of the distance. Use matlab to devise a function that calculates the daily averaged solar radiation as it depends on earth-sun distance (ignore seasonal changes in the sun's angle) through the course of one year. Use for the eccentricity the...