1 Two objects are are moving towards each other with velocities V₁ and ₂ on a frictionless surface. The velocity of the second object before the collision has a magnitude of |V₂| 20.3 m/s. They collide completely inelastically and move together after the collision with a velocity V3 as shown below. If the ratio of the masses is m₁/m₂ = 0.98 and the angles are 0₁ = 36° and 0₂ = 47°, what is the magnitude of V3 in units of m/s? Express your answer using one decimal place. m₂ m₁ V₁ V₂ 0₁ V3 0₂
1 Two objects are are moving towards each other with velocities V₁ and ₂ on a frictionless surface. The velocity of the second object before the collision has a magnitude of |V₂| 20.3 m/s. They collide completely inelastically and move together after the collision with a velocity V3 as shown below. If the ratio of the masses is m₁/m₂ = 0.98 and the angles are 0₁ = 36° and 0₂ = 47°, what is the magnitude of V3 in units of m/s? Express your answer using one decimal place. m₂ m₁ V₁ V₂ 0₁ V3 0₂
Physics for Scientists and Engineers: Foundations and Connections
1st Edition
ISBN:9781133939146
Author:Katz, Debora M.
Publisher:Katz, Debora M.
Chapter11: Collisions
Section: Chapter Questions
Problem 49PQ: Two skateboarders, with masses m1 = 75.0 kg and m2 = 65.0 kg, simultaneously leave the opposite...
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Two objects are are moving towards each other with velocities ?⃗1V→1 and ?⃗2V→2 on a frictionless surface. The velocity of the second object before the collision has a magnitude of |?⃗2|=20.3m/s|V→2|=20.3m/s. They collide completely inelastically and move together after the collision with a velocity ?⃗3V→3 as shown below.If the ratio of the masses is ?1/?2=0.98m1/m2=0.98 and the angles are ?1=36?θ1=36o and ?2=47?θ2=47o, what is the magnitude of ?⃗3V→3 in units of m/sm/s? Express your answer using one decimal place.
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