An object with mass m1 = 1kg moving to the right at a speed of 4m / s collides with a spring attached to a second block of mass m2 = 2kg moving left at 2m / s on a horizontal plane without friction as shown in the figure. The force constant of the spring is 105N / m, and find the velocity of the mass m2 at the moment that the mass m1 moves at 3m / s to the right. V- (4.0i) m/sVzi = (-2.0i) m/smoving to the right at a speedof 4m / s collides with a springattached to a second block ofmass m2 = 2kg moving left at2m / s on a horizontal planeVy= (3.04) m/swithout friction as shown in thefigure. The force constant ofthe spring is 105N / m, and findthe velocity of the mass m2 ata. 0,8cm/sthe moment that the mass m1b. 12.8m/smoves at 3m /s to the right.6,8m/sOd.-1,5m/se. 16,2m/s

Given : Object mass m1 =1kg Initial speed of object v1i = 4 m/s…

An object with mass m1 = 1kg moving to the right at a speed of 4m / s collides with a spring attached to a second block of mass m2 = 2kg moving left at 2m / s on a horizontal plane without friction as shown in the figure. The force constant of the spring is 105N / m, and find the velocity of the mass m2 at the moment that the mass m1 moves at 3m / s to the right.

An object with mass m1 = 1kg moving to the right at a speed of 4m / s collides with a spring attached to a second block of mass m2 = 2kg moving left at 2m / s on a horizontal plane without friction as shown in the figure. The force constant of the spring is 105N / m, and find the velocity of the mass m2 at the moment that the mass m1 moves at 3m / s to the right.