Asteroid A is located 9.0 × 1010 m to the left of Asteroid B and 1.2...

Three 5.32 kg spheres are located at distances d1 = 0.531 m and d2 = 0.750...

Three 5.32 kg spheres are located at distances d1 = 0.531 m and d2 = 0.750 m. What is the magnitude of the net gravitational force exerted on sphere C due to A and B? What is the direction of the force? What is the potential energy of sphere C due to spheres A and B?

12. A rocket ship of mass 1.00 x 104 kg is located 1.00 x 1010 m...

12. A rocket ship of mass 1.00 x 104 kg is located 1.00 x 1010 m from Earth’s centre.             (a) Determine its gravitational potential energy at this point, considering only Earth.             (b) How much kinetic energy must it have at this location to be capable of escaping from       Earth’s gravitational field?             (c) What is its escape speed from Earth at this position?

Stationary planets “A” and “B”, each with mass 1024 kg, are located 106 m away from...

Stationary planets “A” and “B”, each with mass 1024 kg, are located 106 m away from each other in the horizontal direction (x). Space capsule “C” with a mass of 1000 kg starts at rest 106 m from both “A” and “B”, so the three objects form an equilateral triangle. Assume that “A” and “B” have a fixed position and cannot move, while “C” is able to move freely. What is the net gravitational force vector on “C” at time...

The drawing shows three particles far away from any other objects and located on a straight...

The drawing shows three particles far away from any other objects and located on a straight line. The masses of these particles are mA = 316 kg, mB = 505 kg, and mC = 112 kg. Take the positive direction to be to the right. Find the net gravitational force, including sign, acting on (a) particle A, (b) particle B, and (c) particle C. All steps, please! thanks.

An electron (mass 9.11x kg) travels at 2x10^5 m/s to the left. A magnetic field of...

An electron (mass 9.11x kg) travels at 2x10^5 m/s to the left. A magnetic field of magnitude 1.2 T points out of the page. a) What is the force (magnitude and direction) on the electron? b) What is the acceleration of the electron? c) If the magnetic field is uniform in this region, the electron will follow a circular path. What is the radius of the circle? Please enter your answers in the space below and email your work

A wire has a mass of m = 10 gram and a length of L =...

A wire has a mass of m = 10 gram and a length of L = 50.0 cm is suspended by a pair of flexible springs in a uniform magnetic field of magnitude 0.50 T. What are the magnitude and direction (left or right) of the current required to remove the tension in the supporting springs? g = 10 m/s^2 Lütfen birini seçin: A. 4.0 A, left direction B. 0.4 A, right direction C. 2.5 A, right direction D. 4.0...

Solve the following problem using Newtons Laws. Blocks A, B, and C are being pushed across...

Solve the following problem using Newtons Laws. Blocks A, B, and C are being pushed across a frictionless table by a hand that exerts a constant horizontal force. Block A has mass 2M, block B has mass 3M and block C has mass M. The blocks move to the left. a. Draw separate free-body diagrams for each block and a free-body diagram for the system. Label each force with • the object on which the force acts, • the object...

A child pushes her friend (m = 25 kg) located at a radius r = 1.5...

A child pushes her friend (m = 25 kg) located at a radius r = 1.5 m on a merry-go-round (rmgr = 2.0 m, Imgr = 1000 kg*m2) with a constant force F = 90 N applied tangentially to the edge of the merry-go-round (i.e., the force is perpendicular to the radius). The merry-go-round resists spinning with a frictional force of f = 10 N acting at a radius of 1 m and a frictional torque τ = 15 N*m...

1.A horizontally suspended 3.0 m track for fluorescent lights is held in place by two vertical...

1.A horizontally suspended 3.0 m track for fluorescent lights is held in place by two vertical beams that are connected to the ceiling. The track and lights jointly weigh 40 N. One beam is attached 20 cm from one end of the track and the other beam is attached 50 cm from the opposite and of track. What upward force does each beam apply to the track? 2.Three 5.0 kg spheres are distributed as follows. Sphere A is located at...

Two boxes are stacked, with box B placed on top of box A. If box A...

Two boxes are stacked, with box B placed on top of box A. If box A is pushed such that both boxes move with a decreasing speed, is there any friction on either box? (a) Kinetic friction on box A and no friction on box B (b) Kinetic friction on box A and static friction on box B (c) Kinetic friction on box A and kinetic friction on box B (d) Static friction on box A and kinetic friction on...