Block 2 M L. M Block 1 Two blocks are shown before and after they collide. Block 1 is labeled M and Block 2 is labeled m. The x-axis points to the right and the y- axis points up. North points upward. • Before the collision, Block 1 moves directly upward with velocity V; and Block 2 moves down and to the right and an angle of 0 below the x-axis, with velocity v.. • After the collision, Block 2 moves up and to the right at an angle p above the x-axis, with velocity ve Block 1 moves up and to the right with velocity Ve at an angle above the x-axis that is unlabeled but is larger than o.

Two blocks slide on a collision course across a frictionless surface, as in the figure. The resulting collision is inelastic. The first block has mass M = 1.20 kg and is initially sliding due north at a speed of V_i = 8.95 m/s. The second block has mass m = 7.40 ✕ 10⁻² kg and is initially sliding at a speed of v_i = 13.5 m/s directed at an angle θ = 27.5° south of east. Immediately after the inelastic collision, the second block is observed sliding at v_f = 5.15 m/s in a direction of ϕ = 19.5° north of east.

Determine the components of the first block's velocity after the collision.

V_{xf= ?}

Vy_{f= ?}

Transcribed Image Text:

Block 2 M L. M Block 1

Transcribed Image Text:

Two blocks are shown before and after they collide. Block 1 is labeled M and Block 2 is labeled m. The x-axis points to the right and the y- axis points up. North points upward. • Before the collision, Block 1 moves directly upward with velocity V; and Block 2 moves down and to the right and an angle of 0 below the x-axis, with velocity v.. • After the collision, Block 2 moves up and to the right at an angle p above the x-axis, with velocity ve Block 1 moves up and to the right with velocity Ve at an angle above the x-axis that is unlabeled but is larger than o.