Calculate the center of mass/gravity for 5 objects each of mass M1 =1 Kg, M2 =2Kg,...

1) The two objects ( M1=5kg V1=2m/s , M2=3kg V2=-2m/s) collide together after the collision. Find...

1) The two objects ( M1=5kg V1=2m/s , M2=3kg V2=-2m/s) collide together after the collision. Find the velocity of the two objects after the collision. find v1 final and v2 final

Two objects of masses m1=2 kg and m2=4 kg are moving with the same momentum of...

Two objects of masses m1=2 kg and m2=4 kg are moving with the same momentum of 20 kg m s-1. Calculate the kinatic energy (KE) for m1?

#1) a) Find the force of gravity between two uniform spheres as they touch each other....

#1) a) Find the force of gravity between two uniform spheres as they touch each other. Each sphere has a mass of m = 48 kg and a radius of r = 0.7 m. (Enter the magnitude in newtons.) b) What is the force of gravity between them when they stand (surface to surface) 6 m from each other? (Enter the magnitude in newtons.) #2) Two objects of masses m1 = 740 kg and m2 = 280 kg are placed...

Mass and coordinates of three particles are given: Mass, M1 = 3 kg, Coordinates: X =...

Mass and coordinates of three particles are given: Mass, M1 = 3 kg, Coordinates: X = 1, Y = 1 Mass, M2 = 2 kg, Coordinates: X = -1, Y = -1 Mass, M3 = 1 kg, Coordinates: X = 0, Y = 1 (a) Find the Moment of Inertia of the three particles about the X-axis (axis of rotation) (b) Find the Center of Mass of the three objects

Consider an elastic collision in one dimension that involves objects of mass m1=2 kg and m2=11.3...

Consider an elastic collision in one dimension that involves objects of mass m1=2 kg and m2=11.3 kg. The larger mass is initially at rest, and the smaller one has an initial velocity of 16 m/s. Find the final velocities of the two objects after the collision. v1f v2f

Two stars orbit each other, far from other objects. Star 1 has a mass M1 =...

Two stars orbit each other, far from other objects. Star 1 has a mass M1 = 5.0 x 10+30 kg. Star 2 has a mass M2 = 3.0 X 10+30 kg. At a certain instant of time, the positions and velocities of the stars are as follows: Star 1 : ~ r1,i = < 2.0, 0.0, 0 > x 10+9 m, ~ v1,i = < 0.0, 4.0, 0 > x 10+6 m/s. Star 2 : ~ r2,i = < -3.3,...

Two blocks of mass m1 = 2 kg and m2 = 1 kg are suspended over...

Two blocks of mass m1 = 2 kg and m2 = 1 kg are suspended over a pulley of mass M with a string of neglible mass. The pulley is a solid cylinder of radius R = 4 cm. The string does not slip on the pulley, which is a solid cylinder. The magnitude of downward accleration of mass m1 is measured to be a = g/4. A) Write down Newton's second law for m1, m2, and M using the...

Two objects with masses of m1 = 3.90 kg and m2 = 5.70 kg are connected...

Two objects with masses of m1 = 3.90 kg and m2 = 5.70 kg are connected by a light string that passes over a frictionless pulley, as in the figure below. A string passes over a pulley which is suspended from a horizontal surface. A circular object of mass m1 and a rectangular object of m2 are, respectively, attached to the left and right ends of the string. (a) Determine the tension in the string. (Enter the magnitude only. Due...

Two objects of masses m1 = 0.40 kg and m2 = 0.92 kg are placed on...

Two objects of masses m1 = 0.40 kg and m2 = 0.92 kg are placed on a horizontal frictionless surface and a compressed spring of force constant k = 290 N/m is placed between them as in figure (a). Neglect the mass of the spring. The spring is not attached to either object and is compressed a distance of 9.6 cm. If the objects are released from rest, find the final velocity of each object as shown in figure (b)....

A person with mass m1 = 80 kg stands at the left end of a uniform...

A person with mass m1 = 80 kg stands at the left end of a uniform beam with mass m2 = 100 kg and a length L = 4.0 m. Another person with mass m3 = 110 kg stands on the far right end of the beam and holds a medicine ball with mass m4 = 10 kg (assume that the medicine ball is at the far right end of the beam as well). Let the origin of our coordinate...