A particle with mass m1=2 kg is located at x=0 while a particle with mass m2=128...

M1 is a spherical mass (49.0 kg) at the origin. M2 is also a spherical mass...

M1 is a spherical mass (49.0 kg) at the origin. M2 is also a spherical mass (12.1 kg) and is located on the x-axis at x = 96.2 m. At what value of x would a third mass with a 20.0 kg mass experience no net gravitational force due to M1 and M2?

M1 is a spherical mass (47.4 kg) at the origin. M2 is also a spherical mass...

M1 is a spherical mass (47.4 kg) at the origin. M2 is also a spherical mass (13.3 kg) and is located on the x-axis at x = 96.2 m. At what value of x would a third mass with a 20.0 kg mass experience no net gravitational force due to M1 and M2?

A particle of mass, m1 = 2.0 kg with a charge, q1 = -3.1 x 10-10...

A particle of mass, m1 = 2.0 kg with a charge, q1 = -3.1 x 10-10 C is separated by 0.50 m from another particle of mass, m2 = 2.3 kg, and a charge, q2 = -2.1 x 10-11C. What is the magnitude of gravitational force, electric force, and net force between them? Is the gravitational force between them attractive or repulsive? Is the electric force between them attractive or repulsive? Is the net force between them attractive or repulsive?

Two concentric uniform thin spherical shells have masses M1 and M2 and radii a and 2a....

Two concentric uniform thin spherical shells have masses M1 and M2 and radii a and 2a. The inner spherical shell is shifted so that its center is now on the x axis at x = 0.8a. What is the magnitude of the gravitational force on a particle of point mass m located on the x axis at the following? (Use any variable or symbol stated above along with the following as necessary: (a) x = 3a

1. A point mass of 3 kg is located at x = 0 m, y =...

1. A point mass of 3 kg is located at x = 0 m, y = -0.6 m, a point mass of 5 kg is located at x = 0 m, y = +0.7 m, and a point mass of 6 kg is located at x = 0.9 m, y = 0 m. What is the moment of inertia of these masses about the the x axis in kg m2? . 2. A point mass of 2 kg is located...

In the x,y plane: m1=4.0 kg at (2.0 i + 0 j) m m2= 6.0 kg...

In the x,y plane: m1=4.0 kg at (2.0 i + 0 j) m m2= 6.0 kg at (0 i - 3 j) m m3= 8.0 kg at (-2.0 i + 5.0 j) m Question: Find the net force on a 10 kg mass located at (0 i + 0 j) Answer is (9G i - 4.1 G j) N If you could please show your work that would be amazing!

In the figure, a particle of mass m1 = 0.81 kg is a distance d =...

In the figure, a particle of mass m1 = 0.81 kg is a distance d = 19 cm from one end of a uniform rod with length L = 4.3 m and mass M = 4.3 kg. What is the magnitude of the gravitational force F→ on the particle from the rod?

An unstable nucleus of mass 1.7 ✕ 10−26 kg, initially at rest at the origin of...

An unstable nucleus of mass 1.7 ✕ 10−26 kg, initially at rest at the origin of a coordinate system, disintegrates into three particles. One particle, having a mass of m1 = 2.6 ✕ 10−27 kg, moves in the positive y-direction with speed v1 = 5.4 ✕ 106 m/s. Another particle, of mass m2 = 8.0 ✕ 10−27 kg, moves in the positive x-direction with speed v2 = 3.4 ✕ 106 m/s. Find the magnitude and direction of the velocity of...

Particle 1 has a mass of m1 = 3.30 × 10-6 kg, while particle 2 has...

Particle 1 has a mass of m1 = 3.30 × 10-6 kg, while particle 2 has a mass of m2 = 6.30 × 10-6 kg. Each has the same electric charge. These particles are initially held at rest, and the two-particle system has an initial electric potential energy of 0.140 J. Suddenly, the particles are released and fly apart because of the repulsive electric force that acts on each one (see the figure). The effects of the gravitational force are...

An equilateral triangle 90.0 m on a side has a m1 = 35.00 kg mass at...

An equilateral triangle 90.0 m on a side has a m1 = 35.00 kg mass at one corner, a m2 = 95.00 kg mass at another corner, and a m3 = 145.00 kg mass at the third corner. Find the magnitude and direction of the net force acting on the 35.00 kg mass. 6.012e-11 N _____ ° counterclockwise from the positive x-axis Take positive x-axis to the right. I got part a right, need help with part b (counterclockwise part)