Mercury revolves around the Sun with a constant tangential velocity of approximately 47,800 m/s. How many...

The radius of the earth's orbit around the sun (assumed to be circular) is 1.50×108km, and...

The radius of the earth's orbit around the sun (assumed to be circular) is 1.50×108km, and the earth travels around this orbit in 365 days. 1- What is the magnitude of the orbital velocity of the earth in m/s? 2- What is the radial acceleration of the earth toward the sun? 3- What is the magnitude of the orbital velocity of the planet Mercury (orbit radius =5.79×107km, orbital period = 88.0 days)? 4- What is the radial acceleration of the...

Venus orbits the sun in one complete revolution every 225 days. Assuming that Venus orbits the...

Venus orbits the sun in one complete revolution every 225 days. Assuming that Venus orbits the sun in a circular orbit, use the appropriate in your text to solve the following problems. A. Calculate the gravitational force that the sun exerts on Venus. how does this force compare to the gravitational force Venus exerts on the Sun? B. Calculate the period (in seconds) for one complete revolution of Venus around the Sun. C. Determine the magnitude and direction of the...

Find the time for orbit (days) and velocity of Mars (km/s) if it were to make...

Find the time for orbit (days) and velocity of Mars (km/s) if it were to make a perfectly circular orbit around sun. Average distance from outer center of sun to center of Mars is 228x10^6km Mass of Sun is 1.989x10^30 kg Mass of Mars is 6.39x10^23kg Gravitational constant G is 6.67x10^-11 N-m^2/kg^2 Answer Choices A 687.2 days, 24.13 km/sec B 695 days, 23.86 km/sec C 700 days, 23.68 km/sec D 680 days, 24.383 km/sec

A 1.4 kg vehicle travels at a constant speed of 6.2 m/s around a circular track...

A 1.4 kg vehicle travels at a constant speed of 6.2 m/s around a circular track that has a radius of 6.3 m. a.) What is the magnitude of the acceleration of the vehicle? b.) What is the average velocity of the vehicle during one complete revolution?

block slides with the initial velocity of 3 m/s along a frictionless surface with a constant...

block slides with the initial velocity of 3 m/s along a frictionless surface with a constant acceleration of 2 m/s². i) Where is the block at t = 2 seconds? ii) What is the block's velocity at 2 seconds? iii) Where is the block when its velocity is 10 m/s? iv) How long did it take to get to the distance calculated in part (iii)?

Two cars meet with constant acceleration 2 m/s^2 at the time that the distance between them...

Two cars meet with constant acceleration 2 m/s^2 at the time that the distance between them were 175 m, the first car velocity was 15 m/s and the second car velocity was 20 m/s. After how many seconds the both cars will meet?

A car starts at t=0 with a velocity of 25 m/s. It drives with a constant...

A car starts at t=0 with a velocity of 25 m/s. It drives with a constant velocity for 1 minute, then it accelerates with a constant acceleration of 0.5 m/s^2 for 20 seconds, then it continues with a new constant velocity for 1 minute. Draw a graph of the velocity versus time. Calculate the total distance the car travels.

The radius of the Earth’s orbit around the sun (assumed to be circular) is 1.50∙10^8 km,...

The radius of the Earth’s orbit around the sun (assumed to be circular) is 1.50∙10^8 km, and the Earth travels around this obit in 365 days. The mass of the Earth is 5.97∙10^24 kg. (a)What is the magnitude of the orbital velocity of the Earth, in m/s? (b)What is the magnitude of centripetal force acting on the Earth? (c)Calculate the gravitational acceleration OF the Earth (not ON the Earth). Hint: think of your answer to part (d), and set two...

A boat approaches a two-mile marker 100 m ahead at a velocity of 28.5 m/s. The...

A boat approaches a two-mile marker 100 m ahead at a velocity of 28.5 m/s. The pilot reduces the throttle, slowing the boat with a constant acceleration of −2.80 m/s2. How long (in s) does it take the boat to reach the marker? What is the velocity of the boat when it reaches the buoy?

A drum rotates around its central axis at an angular velocity of 12.6 rad/s. If the...

A drum rotates around its central axis at an angular velocity of 12.6 rad/s. If the drum then slows at a constant rate of 4.2 rad/s2, (a) how much time does it take and (b) through what angle does it rotate in coming to rest?