2. Titan is a moon of Saturn. (a) Find the velocity of a satellite in a...

Saturn has a mass of 5.7 ×1026 kg and its largest moon, Titan, has a mass...

Saturn has a mass of 5.7 ×1026 kg and its largest moon, Titan, has a mass of 1.3 × 1023 kg. Given that the distance between them is 1.2 × 106 km, what is the gravitational force between the two? Assuming Titan’s orbit is circular what is its orbital period in days?

Satellite X, a small moon of Planet X, has an orbital period of 1.77 days and...

Satellite X, a small moon of Planet X, has an orbital period of 1.77 days and an orbital radius of 4.22 x 10^5 km. a) What is the mass of Planet X? b) Assume that Satellite X moves in a circular orbit. What is its orbital speed? c) A small mass of m = 2.5 kg is dropped from rest from the moon. What is its speed when it reaches the surface of Planet X, whose radius is 71,492 km?...

QUESTION 1 Part 1 Engineers wish to launch a satellite from the surface of the Moon....

QUESTION 1 Part 1 Engineers wish to launch a satellite from the surface of the Moon. What is the minimum speed the satellite must have to escape the Moon’s gravity – that is, what is the escape velocity at the surface of the Moon? The Moon has a mass of 7.3x10^22 kg and a radius of 1.7x10^6 m. a. 1700 m/s b. 5.7x10^6 m/s c. It depends on the mass of the satellite. d. 2400 m/s Part 2 The satellite...

What velocity is needed to launch a satellite into a circular orbit at an altitude of...

What velocity is needed to launch a satellite into a circular orbit at an altitude of 800 km above the surface of the Earth?

A satellite orbits the Earth uniformly in a circular orbit with a velocity of magnitude 4.00...

A satellite orbits the Earth uniformly in a circular orbit with a velocity of magnitude 4.00 km/s. Use Newton's gravitation force as the force in Newton's Law of Acceleration, using also the centripetal acceleration . Solve for radius r of the satellite's orbit in terms of v . (a) Find then the altitude of the satellite above the surface of the Earth. Earth's mass and radius are 5.9810 kg and 6.3810 km. (b) Find the time it takes the satellite...

A satellite of mass 220 kg is placed into Earth orbit at a height of 500...

A satellite of mass 220 kg is placed into Earth orbit at a height of 500 km above the surface. (a) Assuming a circular orbit, how long does the satellite take to complete one orbit? h (b) What is the satellite's speed? m/s (c) Starting from the satellite on the Earth's surface, what is the minimum energy input necessary to place this satellite in orbit? Ignore air resistance but include the effect of the planet's daily rotation. J

The orbital period of a satellite is 1 hr 34 min. It orbits at an altitude...

The orbital period of a satellite is 1 hr 34 min. It orbits at an altitude of 480 km above the Earth's surface. a) Determine the initial velocity in order to launch the satellite in that circular orbit. b) Find the speed of the satellite once its circular orbit has been achieved. Assume a uniform circular motion.

In order better to map the surface features of the Moon, a 393 kg imaging satellite...

In order better to map the surface features of the Moon, a 393 kg imaging satellite is put into circular orbit around the Moon at an altitude of 149 km. Calculate the satellite's kinetic energy, gravitational potential energy, and total orbital energy. The radius and mass of the Moon are 1740 km and 7.36×1022 kg.

Find the period, T, of a communications satellite in a circular orbit 22,300 miles above the...

Find the period, T, of a communications satellite in a circular orbit 22,300 miles above the earths surface, given that the radius of the earth is 4000 miles, that the period of the moon is 7.3 days, and that the orbit of the moon is almost circular with a radius of 239,000 miles

n order better to map the surface features of the Moon, a 311 kg imaging satellite...

n order better to map the surface features of the Moon, a 311 kg imaging satellite is put into circular orbit around the Moon at an altitude of 133 km. Calculate the satellite's kinetic energy, gravitational potential energy, and total orbital energy. The radius and mass of the Moon are 1740 km and 7.36×1022 kg.