DiskAhas a mass of ml = 1 kg and moves horizontally with an initialvelocity of {11,4}? Disk B has a mass of m3 = 5.5 kg and moves at an angle with an initial velocity of (h. The 2 disks collide with a coefficient of restitution of e = 0.65. Ignore friction. Hint: 1. Use the x-y coordinate axis drawn on the picture Y (Vnh Values for the figure are given in the following table. Note the figure may not be to scale. Variable Value m 5.5 (\"Ah 3 m 7 _ (\"Rh 3 .91 53 degrees For all velocities, include negatives for direction if appropriate. . Determine the x-component of the velocity of diskA after collision, {Vz- . Determine the x-component of the velocity of disk B after collision, (Vhlz. . Determine the y-component of the velocity of disk A after collision, (Ely) 2. nU'Q-I . Determine the y-component of the velocity of disk B after collision, (1'53ng- } (VA}2 f. Determine the direction of the velocity of disk A, 9,4, after collision measured counter-clockwise from the positive z-axis in degrees. e. Determine the speed of disk A after collision, } (VB): h. Determine the direction of the velocity of disk B, I93, after collision measured clockwise from the g. Determine the speed of disk B after collision, positive LEE-axis in degrees. Answer must be between 0 a 5 I93 90 D i. In which quadrant is [VB]? located