Two Dimensional Kinematics Physics 101: Lecture 06 Exam I Two Dimensional Kinematics
Brief Review Thus Far Newton’s Laws of motion Kinematics Dynamics Today we work in 2 Dimensions! 05
Break 2-D problem into two 1-D problems y x 2-Dimensions X and Y are INDEPENDENT! Break 2-D problem into two 1-D problems 7
Kinematics in Two Dimensions x = x0 + v0xt + 1/2 axt2 vx = v0x + axt vx2 = v0x2 + 2ax x y = y0 + v0yt + 1/2 ayt2 vy = v0y + ayt vy2 = v0y2 + 2ay y x and y motions are independent! They share a common time t 21
Projectile Motion Demo One marble is given an initial horizontal velocity, the other simply dropped. Which marble hits the ground first? A) dropped B) pushed C) They both hit the ground at the same time Could add y(t) equation here change to marble equation When ball hits depends on y only! y(t) = y0 + vyo + ½ ay t Same for both balls! 35
Example: ball thrown from cliff Use y components to find time vo= 20 m/s Use x velocity and time to find horizontal distance 60m
Shooting the Monkey... x = v0 t y = -1/2 g t2 x = x0 y = -1/2 g t2 See text: 4-3 Shooting the Monkey... x = v0 t y = -1/2 g t2 x = x0 y = -1/2 g t2 40
Shooting the Monkey... monkey! y = y0 - 1/2 g t2 Still works even if you shoot upwards! Dart hits the monkey! y = v0y t - 1/2 g t2 41
Example: projectile Break Vo into x & y components Vo=30m/s Vo=30m/s 200 Δx Break Vo into x & y components Vo=30m/s 200
Example: projectile Vo=30m/s Δy 200 Δx
Will the ball get over the tree? Example: golf shot Will the ball get over the tree? Vo=50m/s 400 20m Vo=50m/s 400 30m
Will the ball get over the tree? Example: golf shot Will the ball get over the tree? 20m Vo=50m/s 400 30m
Summary of Concepts X and Y directions are Independent! Position, velocity and acceleration are vectors “Share” t F = m a applies in both x and y direction Projective Motion ax = 0 in horizontal direction ay = g in vertical direction 50