1-) Large sphere: mass=23 kg, radius = 75 mm Small sphere: mass=4 kg, radius - 50 mm Collision happens as seen in figure below. e=0.4 a-) Determine the velocities of the spheres after the collision. b-) Find out the angles between the velocity vectors (after impact) and horizontal axis for both spheres.

1-) Large sphere: mass=23 kg, radius = 75 mm Small sphere: mass=4 kg, radius - 50 mm Collision happens as seen in figure below. e=0.4 a-) Determine the velocities of the spheres after the collision. b-) Find out the angles between the velocity vectors (after impact) and horizontal axis for both spheres.

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Question

1-) Large sphere: mass = 23 kg, radius = 75 mm
Small sphere: mass=4 kg, radius= 50 mm
Collision happens as seen in figure below.
e=0.4
a-) Determine the velocities of the spheres after the collision.
b-) Find out the angles between the velocity vectors (after impact) and horizontal axis for both
spheres.
4 m/s
12 m/s
Murat Saribay
75 mm

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Step 1: Given that:

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Step 2: Collision diagram:

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Step 3: Use of momentum conservation:

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Step 4: Use of Coefficient of restitution e:

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Step 5: Momentum conservation along the perpendicular to the LOI:

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Step 6: Calculation of velocity and angle for larger mass m(1):

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Step 7: Calculation of velocity and angle for larger mass m(2):

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