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Please use the equations provided I have to jump to a step 30 cm above a launch point and 1.67 meters away from it, what should be my minimum speed to get there if the angle it’s 35 degrees horizontal

Please use the equations provided I have to jump to a step 30 cm above a launch point and 1.67 meters away from it, what should be my minimum speed to get there if the angle it’s 35 degrees horizontal

College Physics
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Please use the equations provided I have to jump to a step 30 cm above a launch point and 1.67 meters away from it, what should be my minimum speed to get there if the angle it’s 35 degrees horizontal
Equations: Vector components, standard Cartesian plane: Vx= V cos 8 Vy = V sin 0 Constant linear acceleration: V = Vo + at Projectile motion: X = Xo + Voxt Rotational motion: 0 = s/r @= @o + at Frictional force: w = v/r Newton's Second Law of motion: Centripetal force: Use g d = do + Vot + ½ at² Gravitational force, or weight: = Vx² + Vy² = V² y = yo + Voy - 1/2 gt² 360⁰ = 2n radians a = aT/r 000+ wot + ½ at² tan 8 = Vy/Vx v² = vo² + 2a(d-do) Vy = Voy -gt ac = v²/r = rw² w² = wo² + 2a(0 - 0) ΣF = ma Fg = mg Ff = µFn Fc = mv²/r 10.0 m/s² for the acceleration due to gravity near the surface of the earth.
Transcribed Image Text:Equations: Vector components, standard Cartesian plane: Vx= V cos 8 Vy = V sin 0 Constant linear acceleration: V = Vo + at Projectile motion: X = Xo + Voxt Rotational motion: 0 = s/r @= @o + at Frictional force: w = v/r Newton's Second Law of motion: Centripetal force: Use g d = do + Vot + ½ at² Gravitational force, or weight: = Vx² + Vy² = V² y = yo + Voy - 1/2 gt² 360⁰ = 2n radians a = aT/r 000+ wot + ½ at² tan 8 = Vy/Vx v² = vo² + 2a(d-do) Vy = Voy -gt ac = v²/r = rw² w² = wo² + 2a(0 - 0) ΣF = ma Fg = mg Ff = µFn Fc = mv²/r 10.0 m/s² for the acceleration due to gravity near the surface of the earth.
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