Calculate the altitude at which an artificial satelliteorbiting in the equatorial plane can be synchronous satellite...
Calculate the altitude at which an artificial satelliteorbiting in the equatorial plane can be synchronous satellite (i.e.,so it can remain above the same spot on the surface of the earth).(hint: consider gravitational force is balanced with the centrifugal force, so zero gravitystate).
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Calculate the altitude at which an artificial satelliteorbiting
in the equatorial plane can be synchronous satellite...
A satellite of mass 42.5 kg in geosynchronous orbit at an altitude of 3.58 ✕ 104...
A satellite of mass 42.5 kg in geosynchronous orbit at an altitude of 3.58 ✕ 104 km above the Earth's surface remains above the same spot on the Earth. Assume its orbit is circular. Find the magnitude of the gravitational force exerted by the Earth on the satellite. Hint: The answer is not 417 N
Telecommunication satellites travel in geosynchronous orbits. these satellites move in sync with the Earth surface and...
Telecommunication satellites travel in geosynchronous orbits. these satellites move in sync with the Earth surface and always stay above the same point on the surface of the earth. all satellites in geosynchronous orbit must be located in the equatorial plane. Please, explain why it has to stay in the equatorial plane. Please EXPLAIN why it has to stay in the equatorial plane. DRAW a simple diagram showing forces acting on such a satellite. Hint: For any stable orbit the centripetal...
A synchronous satellite, which always remains above the same point on a planet's equator, is put...
A synchronous satellite, which always remains above the same point on a planet's equator, is put in orbit around Jupiter to study that planet's famous red spot. Jupiter rotates once every 9.84 h. Use the following data to find the altitude of the satellite above the surface of the planet. Jupiter has a mass of 1.90 1027 kg, and a mean radius of 6.99 107 m. Answer must be in km
An artificial satellite circling the Earth completes each orbit in 135 minutes. (a) Find the altitude...
An artificial satellite circling the Earth completes each orbit in 135 minutes. (a) Find the altitude of the satellite. m (b) What is the value of g at the location of this satellite? m/s2 (a) Find the magnitude of the gravitational force (in N) between a planet with mass 8.25 X 1024 kg and its moon, with mass 2.20 x 1022 kg, if the average distance between their centers is 2.20 x 108, m. N (b) What is the moon's...
46. W A synchronous satellite, which always remains above the same point on a planet's equator,...
46. W A synchronous satellite, which always remains above the same point on a planet's equator, is put in circular orbit around Jupiter to study that planet's famous red spot. Jupiter rotates once every 9.84 h. Use the data of Table 7.3 to find the altitude of the satellite.
2. Consider a system consisting of the Sun, Earth, and a satellite in a circular orbit...
2. Consider a system consisting of the Sun, Earth, and a satellite in a circular orbit about the Earth. (a) Plot the gravitational acceleration of the satellite due to Earth's gravity as a function of the altitude of the satellite as measured from the surface of the Earth. Scale your plot so that the altitude goes from 0 km to 104 km. (b) Assume that the satellite instantaneously lies on the line between the Earth and the Sun. Make two...
A “synchronous” satellite, which always re- mains above the same point on a planet’s equator, is...
A “synchronous” satellite, which always re- mains above the same point on a planet’s equator, is put in orbit about a planet similar to Jupiter. This planet rotates once every 9 . 6 h, has a mass of 1 . 9 × 10 27 kg and a radius of 6 . 99 × 10 7 m. Given that G = 6 . 67 × 10 − 11 N m 2 / kg 2 , calculate how far above Jupiter’s SURFACE...
Problem Solving: LightSail 2 LightSail 2 was a satellite that was designed to use solar radiation...
Problem Solving: LightSail 2 LightSail 2 was a satellite that was designed to use solar radiation to change its altitude as it circled Earth. The spacecraft had a mass of 5.0kg. It was originally launched by a rocket with its sail closed, and established an orbit at an altitude of 720 km above Earth’s surface. Then it deployed its sail, which had an area of 32m2. Assume the sail is completely reflective. 1) After a full month of “½...
Learning Goal: To understand Newton's law of gravitation and the distinction between inertial and gravitational masses....
Learning Goal: To understand Newton's law of gravitation and the distinction between inertial and gravitational masses. In this problem, you will practice using Newton's law of gravitation. According to that law, the magnitude of the gravitational force Fg between two small particles of masses m1 and m2 separated by a distance r, is given by m1m2 T2 where G is the universal gravitational constant, whose numerical value (in SI units) is 6.67 x 10-11 Nm2 kg2 This formula applies not...
A parachutist of mass 70 kg jumps from a plane at an altitude of 32 km...
A parachutist of mass 70 kg jumps from a plane at an altitude of 32 km above the surface of the Earth. Unfortunately the parachute fails to open. (In the following parts, neglect horizontal motion an assume that the initial velocity is zero.) A. Calculate the time of fall (accurate to 1 s) until ground impact, given no air resistance and a constant value of j B. Calculate the time of fall (accurate to 1 s) until ground impact, given...
An artificial satellite circling the Earth completes each orbit in 135 minutes. (a) Find the altitude of the satellite. m (b) What is the value of g at the location of this satellite? m/s2 (a) Find the magnitude of the gravitational force (in N) between a planet with mass 8.25 X 1024 kg and its moon, with mass 2.20 x 1022 kg, if the average distance between their centers is 2.20 x 108, m. N (b) What is the moon's...
46. W A synchronous satellite, which always remains above the same point on a planet's equator, is put in circular orbit around Jupiter to study that planet's famous red spot. Jupiter rotates once every 9.84 h. Use the data of Table 7.3 to find the altitude of the satellite.
2. Consider a system consisting of the Sun, Earth, and a satellite in a circular orbit about the Earth. (a) Plot the gravitational acceleration of the satellite due to Earth's gravity as a function of the altitude of the satellite as measured from the surface of the Earth. Scale your plot so that the altitude goes from 0 km to 104 km. (b) Assume that the satellite instantaneously lies on the line between the Earth and the Sun. Make two...
Learning Goal: To understand Newton's law of gravitation and the distinction between inertial and gravitational masses. In this problem, you will practice using Newton's law of gravitation. According to that law, the magnitude of the gravitational force Fg between two small particles of masses m1 and m2 separated by a distance r, is given by m1m2 T2 where G is the universal gravitational constant, whose numerical value (in SI units) is 6.67 x 10-11 Nm2 kg2 This formula applies not...
A parachutist of mass 70 kg jumps from a plane at an altitude of 32 km above the surface of the Earth. Unfortunately the parachute fails to open. (In the following parts, neglect horizontal motion an assume that the initial velocity is zero.) A. Calculate the time of fall (accurate to 1 s) until ground impact, given no air resistance and a constant value of j B. Calculate the time of fall (accurate to 1 s) until ground impact, given...
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