How do Kepler’s Laws help calculate the radius of the synchronous orbit of an Earth-orbiting satellite? Discuss why you think Kepler’s laws are relevant to other scientists who came after him
How do Kepler’s Laws help calculate the radius of the synchronous orbit of an Earth-orbiting satellite?...
How do Kepler’s Laws help calculate the radius of the synchronous orbit of an Earth-orbiting satellite? Discuss why you think Kepler’s laws are relevant to other scientists who came after him.
How can Kepler’s law of planetary motion be applied to the case of geo-stationary satellite? What are the orbital parameters required to determine a satellite orbit? Name and explain them. Determine the maximum and minimum range in kilometer from an earth station to a geo-synchronous satellite. To what round trip propagation times do these correspond? Mention the effect of eclipse on the orbital motion of a satellite. Mention the effect of gravitational force due to sun and moon on the...
A geosynchronous satellite is placed above the equator and orbiting around the earth to facilitate communication around the world. (You may consider that the mass of the satellite is m, mass of the earth is M(6x1024 kg), center-to-center distance between the satellite and the earth is r, radius of the earth is R(6.4×106 m), and the universal gravitational constant G = 6.67x10-11 N.m2/kg2.) Satellite Earth Applying newton's 2nd law, write an equation describing the circular motion of the satellite. (4...
Many communication satellites are placed in a circular orbit around the Earth at a radius where the period (the time to go around the Earth once) is 24 hours. If the satellite is above some point on the equator, it stays above that point as the Earth rotates, so that as viewed from the rotating Earth the satellite appears to be motionless. That is why you see dish antennas pointing at a "fixed" point in space. (a) Calculate the radius...
Calculate the period of a satellite orbiting the Moon, 96 km above the Moon's surface. Ignore effects of the Earth. The radius of the Moon is 1740 km..
some help please and thank you Calculate the period (in hours) of an artificial satellite orbiting the Earth at an altitude of 3500 km. It is given that the Moon orbits the Earth in 27.3 days and it is 3.84X108 m away from the center of Earth. 0.08 O 0.11 O 2.7 1.93
Newton's Satellite Directions: Read the background information and complete the activity Newton's Thought Experiment In the seventeenth century, Sir Isaac Newton was studying the nature of motion and gravity. He formulated a thought experiment that would eventually become the basis of the development of satellites. Imagine an object is fired from a cannon horizontal to the plane of the earth. The projectile will travel in a horizontal direction and undergo projectile motion as gravity begins to pull the projectile downward....
Calculate the distance from the center of the Earth of Geostationary or Geosynchronous orbit. G = 6.67 x 1—11 N*m2/kg2 and the mass of the Earth = 5.98 x 1024 kg. (5 points) What kind of problem is this? If there is any other hidden information what is it? For what variables do I have numbers and for what am I solving? I am interested in equations with what variables? List all relevant equations here. Highlight what you know by...
Newton’s Cannon Imagine you fired a cannonball such that the range of that ball was slightly longer than the radius of the Earth. As that ball fell back down, it would miss the ground and continue to fall. If we can ignore any air resistance or collisions with other objects, then we can say the ball would continue to fall forever, just missing the ground, and thus be in orbit. Assume all orbits here are perfectly circular and pretend that...
A synchronous satellite, which always remains above the same point on a planet's equator, is put in orbit around Mars so that scientists can study a surface feature. Mars rotates once every 24.6 h. Use the data of this table to find the altitude of the satellite. Please show how you figured this out step by step! Useful Planetary Data Mean 10-19 ..3 Mean Distance Radius (m Mass (kg) Period (s) Body from Sun (m) 2.48 X 10 7.60 x...