Problem 2:In baseball the pitcher will throw baseballs horizontally and to account for gravity, thepitcher will stand upon a raised mound. Take the pitcher's release point to be 1.2m abovethe ground and they will hit a spot 0.7m above the ground at a distance 20m away.a)Draw ST vs t, sy VS t, Uz VS t,, Vy vs t, a vs t,, and ay vs t, graphs ofthe baseball's motionb)from Kinematic Equations on the first pageProve that the velocity needed is =9(Asz)²V24sysymbolically by startingc)If the pitcher was playing on Mars (g = 3.7m/s, negligible air resistance)how fast would they have to pitch?

The component of motion which are perpendicular to each other are completely independent of each…

Problem 2: In baseball the pitcher will throw baseballs horizontally and to account for gravity, the pitcher will stand upon a raised mound. Take the pitcher's release point to be 1.2m above the ground and they will hit a spot 0.7m above the ground at a distance 20m away. a) Draw 8 vs t, Sy vs t, vz vs t,, vy vs t, a vs t,, and ay vs t, graphs of the baseball's motion symbolically by starting b) Prove that the velocity needed is from Kinematic Equations on the first page = (As) √24sy c) If the pitcher was playing on Mars (g = 3.7m/s, negligible air resistance) how fast would they have to pitch?

Problem 2: In baseball the pitcher will throw baseballs horizontally and to account for gravity, the pitcher will stand upon a raised mound. Take the pitcher's release point to be 1.2m above the ground and they will hit a spot 0.7m above the ground at a distance 20m away. a) Draw 8 vs t, Sy vs t, vz vs t,, vy vs t, a vs t,, and ay vs t, graphs of the baseball's motion symbolically by starting b) Prove that the velocity needed is from Kinematic Equations on the first page = (As) √24sy c) If the pitcher was playing on Mars (g = 3.7m/s, negligible air resistance) how fast would they have to pitch?