A projectile is launched from the surface of a planet (mass = 15 x 1024 kg, radius = R = 10.0 x 106 m). What minimum launch speed is required if the projectile is to rise to a height of 5R above the surface of the planet? Disregard any dissipative effects of the atmosphere. Put your answer in km/s. Equation Sheet Chabay Equation Sheet Serway Answer: 1231 * You could also be asked about the escape energy or escape velocity....
A planet has a mass of 7.24 × 1024 kg and a radius of 7240 km. (a) Find the orbital radius of a satellite that is to complete 1 orbit every 3.4 hours. (b) Find the tangential velocity of a satellite that is to orbit 560 km above this planet’s surface. (c) Find the time period of a satellite that has an orbital radius of 9.35 × 107 m around this planet.
Problem 3.20 Your answer is partially correct. Try again. A planet of mass 7 x 1024 kg is at location -9 x 1011, 2 x 1011, 0> m. A star of mass 6 x 1030 kg is at location <4 x 1011,-3 x 1011, 0> m. What is the force exerted on the planet by the star? (It will probably be helpful to draw a diagram, including the relevant vectors.) on planet 321230 1235500 > N (a) Calculate the magnitude...
Problem 3.19 A planet of mass 8 × 1024 kg is at location <-7 × 1011, 9 ×1011, 0> m. A star of mass 3 × 1030 kg is at location <3 × 1011, -2 × 1011, 0> m. What is the force exerted on the planet by the star? (It will probably be helpful to draw a diagram, including the relevant vectors.) F→= < , , > N
A planet of mass 5.97 x 1024 kg revolves around a star of mass 2 x 1030 kg. Consider the orbit of the planet to be circular and the star is at the center. The distance between the star and the planet is 1.496 x 1011 m. Calculate the orbital velocity of the planet. (G=6.67x10-11 mº kg1s 2) (In the choices below, 10^4 is 104) O 2.99 x 10^4 m/s 8.92 x 10^4 m/s O 4.58 x 10^4 m/s O...
A planet of mass 5.97 x 1024 kg revolves around a star of mass 2 x 1030 kg. Consider the orbit of the planet to be circular Ind the star is at the center. The distance between the star and the planet is 1.496 x 1011 m. Calculate the orbital velocity of the planet. (G= 6.67x10-11 m3 kg-152) (In the choices below, 10^4 is 104)
A planet of mass m = 1.55 x 1024 kg is orbiting in a circular path a star of mass M = 9.75 x 1029 kg. The radius of the orbit is R = 4.65 x 107 km. What is the orbital period (in earth days) of the planet? Where G = 6.67 � 10-11 N�m2/kg2 and 1 day = 8.54 � 104 s. I used the formula and got T = 247 s = 0.0289 days, but the online...
One model for a certain planet has a core of radius R and mass M surrounded by an outer shell of inner radius R, outer radius 2R, and mass 4M. If M-7.53 × 1024 kg and R = 7.08 x 106 m, what is the gravitational acceleration of a particle at points (a) R and (b) 3R from the center of the planet? (a) Number Unii (b) Number Units
The planet Duxo has a mass of mp = 7.77 X 1027 kg and a radius of Rp = 7770 km. A satellite, whose mass is m, 77.7 kg, orbits Duxo at a height of h 777 km above the Duxonian surface. In units of g = 9.8 m/s, what is the magnitude of the gravitational acceleration on the surface of Duxo?
The planet Duxo has a mass of mp = 7.77 x 1027 kg and a radius of Rp = 7770 km. A satellite, whose mass is my 77.7 kg, orbits Duxo at a height of h 777 km above the Duxonian surface. In units of g = 9.8 m/s?. what is the magnitude of the gravitational acceleration on the surface of Duxo?