A planet orbits a star, in a year of length 4.22 x 107 s, in a...
A planet orbits a star, in a year of length 4.22 x 107 s, in a nearly circular orbit of radius 2.69 x 1011 m. With respect to the star, determine (a) the angular speed of the planet, (b) the tangential speed of the planet, and (c) the magnitude of the planet's centripetal acceleration.
Homework Answers
A planet orbits a star, in a year of length 4.39 x 107 s, in a...
A planet orbits a star, in a year of length 4.39 x 107 s, in a nearly circular orbit of radius 1.77 x 1011 m. With respect to the star, determine (a) the angular speed of the planet, (b) the tangential speed of the planet, and (c) the magnitude of the planet's centripetal acceleration.
A planet orbits a star, in a year of length 2.88 x 107 s, in a...
A planet orbits a star, in a year of length 2.88 x 107 s, in a nearly circular orbit of radius 3.80 x 1011 m. With respect to the star, determine (a) the angular speed of the planet, (b) the tangential speed of the planet, and (c) the magnitude of the planet's centripetal acceleration.
A planet orbits a star, in a year of length 2.23 x 107 s, in a...
A planet orbits a star, in a year of length 2.23 x 107 s, in a nearly circular orbit of radius 2.89 x 1011 m. With respect to the star, determine (a) the angular speed of the planet, (b) the tangential speed of the planet, and (c) the magnitude of the planet's centripetal acceleration.
Chapter 08, Problem 47 A planet orbits a star, in a year of length 4.83 x...
Chapter 08, Problem 47 A planet orbits a star, in a year of length 4.83 x 10^7 s, in a nearly circular orbit of radius 2.25 x 10^11 m. With respect to the star, determine (a) the angular speed of the planet, (b) the tangential speed of the planet, and (c) the magnitude of the planet's centripetal acceleration.
A planet orbits a star once every 2.90 x 10's in a nearly circular orbit of...
A planet orbits a star once every 2.90 x 10's in a nearly circular orbit of radius 1.43 x 1011 m. (a) With respect to the star, determine the angular speed of the planet. rad/s (b) With respect to the star, determine the tangential speed of the planet. m/s (C) With respect to the star, determine the magnitude and direction of the planet's centripetal acceleration. magnitude direction ---Select--- m/s2
please show work 7. 1.1/3.1 points Previous Answers CJ10 8.P.047. A planet orbits a star once every 3.29 x 10's in a...
please show work
7. 1.1/3.1 points Previous Answers CJ10 8.P.047. A planet orbits a star once every 3.29 x 10's in a nearly circular orbit of radius 1.53 x 1011 m. (a) With respect to the star, determine the angular speed of the planet. X rad/s (b) with respect to the star, determine the tangential speed of the planet. 29219.7 m/s (c) with respect to the star, determine the magnitude and direction of the planet's centripetal acceleration, magnitude m/s2 direction...
Problem 1 Planetary Orbits Consider the two-body problem for a planet-star system. The planet, of mass...
Problem 1 Planetary Orbits Consider the two-body problem for a planet-star system. The planet, of mass m, is initially in a circular orbit of radius r and angular speed w about the star, of mass M. (i) What is the gravitational potential energy of the system, U? What is the kinetic energy of the planet, K? What is the total energy of the system, E = K +U? (ii) The star suddenly loses half of its mass, M + M/2....
A planet of mass m orbits a star of mass M in an elliptical orbit with...
A planet of mass m orbits a star of mass M in an elliptical orbit with semi major axis a. The distance of closest approach to the star is a / 4 . Assuming the ratio of the plant's speed at perigee (when a planet is closest to the star) to the planet's speed at apogee (when the planet is furthest away from the star) is
points A newly discovered planet is in a circular orbit around a distant star with an...
points A newly discovered planet is in a circular orbit around a distant star with an orbital period of 400 Earth days. The planet also rotates on its axis, making one full rotation every 4.00 Earth days. The radius of the planet is rp = 7.00 × 106 m and the radius of the planet's orbit about the star is r 7.00×1011 m. My Notes Ask Your Tea Determine the ratio of the radial acceleration, due to the rotation of...
(1) . A planet orbits a star in a circle. By Kepler's 2d aw of planetary...
(1) . A planet orbits a star in a circle. By Kepler's 2d aw of planetary motion the planet s speed is constant. If the radius of the orbit is 1.50x10 m and it takes s complete an orbit, what are the magnitude and direction of the acceleration o f the planeti? (2) A dangerously careless student ignores safety regulations and rotates a metal probe in a circular motion experiment far faster than the safety limit in his Ia breaks...
A planet orbits a star once every 2.90 x 10's in a nearly circular orbit of radius 1.43 x 1011 m. (a) With respect to the star, determine the angular speed of the planet. rad/s (b) With respect to the star, determine the tangential speed of the planet. m/s (C) With respect to the star, determine the magnitude and direction of the planet's centripetal acceleration. magnitude direction ---Select--- m/s2
please show work
7. 1.1/3.1 points Previous Answers CJ10 8.P.047. A planet orbits a star once every 3.29 x 10's in a nearly circular orbit of radius 1.53 x 1011 m. (a) With respect to the star, determine the angular speed of the planet. X rad/s (b) with respect to the star, determine the tangential speed of the planet. 29219.7 m/s (c) with respect to the star, determine the magnitude and direction of the planet's centripetal acceleration, magnitude m/s2 direction...
Problem 1 Planetary Orbits Consider the two-body problem for a planet-star system. The planet, of mass m, is initially in a circular orbit of radius r and angular speed w about the star, of mass M. (i) What is the gravitational potential energy of the system, U? What is the kinetic energy of the planet, K? What is the total energy of the system, E = K +U? (ii) The star suddenly loses half of its mass, M + M/2....
points A newly discovered planet is in a circular orbit around a distant star with an orbital period of 400 Earth days. The planet also rotates on its axis, making one full rotation every 4.00 Earth days. The radius of the planet is rp = 7.00 × 106 m and the radius of the planet's orbit about the star is r 7.00×1011 m. My Notes Ask Your Tea Determine the ratio of the radial acceleration, due to the rotation of...
(1) . A planet orbits a star in a circle. By Kepler's 2d aw of planetary motion the planet s speed is constant. If the radius of the orbit is 1.50x10 m and it takes s complete an orbit, what are the magnitude and direction of the acceleration o f the planeti? (2) A dangerously careless student ignores safety regulations and rotates a metal probe in a circular motion experiment far faster than the safety limit in his Ia breaks...
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