A mass m1= 1.5g is 10cm from a mass, m2= 3.5 g. Find the center of...

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

Calculate the center of mass/gravity for 5 objects each of mass M1 =1 Kg, M2 =2Kg, M3=3Kg, M4=4Kg, M5 = 5Kg. They are at the respective positions of (-3,7), (-4,-4),(5,9),(0,0),(1,17).

Two masses, m1 and m2 hang over a frictionless pulley by means of a massless string....

Two masses, m1 and m2 hang over a frictionless pulley by means of a massless string. They are perfectly balanced when a flea of mass m3 is standing on m2. When the flea hops from one mass to the other, the system acquires an acceleration, a. What is the value of the flea's mass, m3 in terms of two masses, m1 and m2, and the acceleration, a? (a) what is m3 in terms of m1 and m2? (b) what is...

A block with mass m1 hangs from a rope that is extended over an ideal pulley...

A block with mass m1 hangs from a rope that is extended over an ideal pulley and attached to a second block with mass m2 that sits on a ledge. The second block is also connected to a third block with mass m3 by a second rope that hangs over a second ideal pulley as shown in the figure below. If the friction between the ledge and the second block is negligible, m1 = 2.60 kg, m2 = 4.00 kg,...

A professional boxer of mass m1 strongly hits a punching bag in the center of m2,...

A professional boxer of mass m1 strongly hits a punching bag in the center of m2, it is suspended from a cable. The collision between both bodies is perfectly inelastic. Therefore, this combined system is balanced through a height l. a) How fast does the boxer hit the bag? b) If the fist lost all its initial speed when hitting the sack. How high did the sack swing? c) Find the angular velocity of the bag after the boxer transmitted...

There is object-1 of mass m1=2.84kg moving on +x axis with the velocity of v1=9.62m/s. Object-1...

There is object-1 of mass m1=2.84kg moving on +x axis with the velocity of v1=9.62m/s. Object-1 is explode into two segments of masses m2=1.74 kg and m3=1.10kg. Mass m2 moves in +250 with the velocity of 3.57m/s. a) Find the x and y-components of velocity of mass m3 after collision? (4 points) b) Find the velocity component of x-direction of the center of mass of the two-particle system after collision. Find the velocity component of y-direction of the center of...

Three particles are placed in the xy plane. A m1 = 65 g particle is located...

Three particles are placed in the xy plane. A m1 = 65 g particle is located at (x1, y1), where x1 = 4.4 m and y1 = 1.7 m and a m2 = 58 g particle is located at (x2, y2), where x2 = −1.4 m and y2 = −6.6 m . A) What must be the x coordinate of the m3 = 42 g particle so that the center of mass of the three-particle system is at the origin?...

Newton’s version of Kepler’s third law is: P2 = 4 π2 / [G (M1 + M2)]...

Newton’s version of Kepler’s third law is: P2 = 4 π2 / [G (M1 + M2)] × a3. The space shuttle orbits 261 km above the Earth's surface. How often do the astronauts see a sunrise (in minutes)? Use the gravitational constant G = 6.67 × 10-11 m3 kg-1 s-2, the mass of the Earth M = 5.97 × 1024 kg, and the radius of the Earth to be 7100 km.

There is an object-1 of mass m1=1.84kg moving on +x-axis with the velocity of v1=7.62m/s. Object-1...

There is an object-1 of mass m1=1.84kg moving on +x-axis with the velocity of v1=7.62m/s. Object-1 is explode into two segments of masses m2=0.74 kg and m3=1.10kg. Mass m2 moves in +28 degrees direction on xy plane with the velocity of 1.57m/s. a) Find the x and y-components of velocity of mass m3 after collision? [Hint: you can assume the direction of m3 in any direction on xy plane with velocity components] b) Find the velocity component of x-direction of...

Three particles have the following masses and center of mass coordinates: m1 = 2.50 kg, (0.150...

Three particles have the following masses and center of mass coordinates: m1 = 2.50 kg, (0.150 m, 0.420 m), m2 = 1.50 kg, (0.120 m, -0.350 m), and m3 = 2.00 kg, (-0.410 m, 0.520 m). The coordinate of the center of mass of the particle system is: a. (0.04 m, -0.261 m) b. (0.04 m, -0.261 m) c. (- 0.04 m, -0.261 m) d. (- 0.04 m, 0.261 m)

A student of mass m1 = 73 kg stands on a long cart of mass m2...

A student of mass m1 = 73 kg stands on a long cart of mass m2 = 110 kg initially at rest. He begins to run in the cart with a speed relative to the ground of v1 = 3.5 m/s. m1= 73 kg, m2= 110 kg, v1=3.5 m/s (a) Write an expression for the horizontal component of the cart's velocity relative to the ground while the student is running, in terms of the variables given in the problem statement....