A planet of mass 9 × 1024 kg is at location <-6 × 1011, 4 ×...

Consider a spherical, homogeneous planet with a radius of rp=3985 km and a mass of mp=8.97×1024...

Consider a spherical, homogeneous planet with a radius of rp=3985 km and a mass of mp=8.97×1024 kg. A spherical object with a radius of r0=9.21 m and mass m0=868 kg approaches the planet. Part 1) When the object is 5.33×109 km away from the planet, what is the magnitude of the force the planet exerts on the object? F= N Part 2) When the object is 8.10 m above the surface of the planet, what is the magnitude of the...

A planet with mass 8 × 1024 kg orbits a sun with a period of 1...

A planet with mass 8 × 1024 kg orbits a sun with a period of 1 Earth's years. The speed of the planet around that sun is constant and |v|= 46800 m/s. What is the mass of that sun?

5) Two heavenly bodies both with radii of 6×103 miles and masses of 9×1024 kg are...

5) Two heavenly bodies both with radii of 6×103 miles and masses of 9×1024 kg are separated by 4×107 miles. They are initially at rest. How fast are they moving just before their surfaces collide. Assume that you can ignore any effects having to do with the existence of atmospheres and that nothing significant exists in the space between the planets. Correct, computer gets: 1.25E+04 mi/hr Hint: Consider the initial "scene" before the planets gain any speed and the final...

A mass of 4 Kg attached to a spring whose constant is 20 N / m...

A mass of 4 Kg attached to a spring whose constant is 20 N / m is in equilibrium position. From t = 0 an external force, f (t) = et sin t, is applied to the system. Find the equation of motion if the mass moves in a medium that offers a resistance numerically equal to 8 times the instantaneous velocity. Draw the graph of the equation of movement in the interval.

An object with mass 60 kg moved in outer space. When it was at location <13,...

An object with mass 60 kg moved in outer space. When it was at location <13, -25, -4> its speed was 4.5 m/s. A single constant force <240, 480, -170> N acted on the object while the object moved from location <13, -25, -4> m to location <16, -17, -7> m. Then a different single constant force <80, 230, 180> N acted on the object while the object moved from location <16, -17, -7> m to location <22, -23, -1>...

The planet Mars has a mass of 6.40x10^23 kg, and travels in a nearly circular orbit...

The planet Mars has a mass of 6.40x10^23 kg, and travels in a nearly circular orbit around the Sun, as shown in the firgure below. When it is at location A, the velocity of Mars is < 0, 0, -4.30x10^4 > m/s. When it reaches location B, the planets velocity is < -3.10x10^4, 0, 0 > m/s. We're looking down on the orbit from above the north poles of the Sun and Mars, with +x to the right and +z...

8) 3 kg mass moving with 10 m/s in the x-direction hits a 5 kg mass...

8) 3 kg mass moving with 10 m/s in the x-direction hits a 5 kg mass at rest. After the collision 3 kg is deflected by 30 degree while the 5 kg is deflected by 45 degrees.a) Draw a diagram for the initial and final motion including the directions of the velocitiesb) Find the final velocities of each massc) Determine if the collision is elastic or not.d) Qualitatively, show the direction of the impulse (or the Force) on 3kg due...

1. A 0.020 kg and a 0.060 kg ball are at the two opposite ends of...

1. A 0.020 kg and a 0.060 kg ball are at the two opposite ends of a compressed spring. When the spring expands, the 0.060 kg ball is shot at a speed of 3 m/s. Assuming no energy loss, calculate the shot speed of the other ball. A.9 m/s B.6 m/s C.3 m/s D.1 m/s 2. Calculate the gravity force between the Earth and the Sun. msun = 1.99×1030 kg ; mEarth = 5.97×1024 kg ; Earth-Sun distance : 1.50×1011...

A body of mass equal to 4 kg is attached to a spring of constant k...

A body of mass equal to 4 kg is attached to a spring of constant k = 64 N / m. If an external force F (t) = 3/2 cos 4t is applied to the system, determine the position and speed of the body at all times; suppose that the mass was in position x (0) = 0.3 m and, at rest, at time t = 0 s

1.Zero, a hypothetical planet, has a mass of 4.9 x 1023 kg, a radius of 3.3...

1.Zero, a hypothetical planet, has a mass of 4.9 x 1023 kg, a radius of 3.3 x 106 m, and no atmosphere. A 10 kg space probe is to be launched vertically from its surface. (a) If the probe is launched with an initial kinetic energy of 5.0 x 107 J, what will be its kinetic energy when it is 4.0 x 106 m from the center of Zero? (b) If the probe is to achieve a maximum distance of...