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Revision notes on 5.9.3 Collisions for the AQA GCSE Physics syllabus, written by the Physics experts at Save My Exams.
Apr 2, 2019 · I Ch. 6–2 Holt Physics Solution Manual I 4. m = 0.50 kg F1 = 3.00 N to the right
Answer: 6 m/s. Before Collision: (6 kg) * (10 m/s) + (4 kg) * (4 m/s ) = 76 kg m/s. After Collision: (6 kg) * v + (4 kg) * (10 m/s ) = (6 kg) * v + 40 kg m/s (In the following steps, the units are dropped so that the algebra can be more easily followed.) 76 = 6v + 40. 36 = 6v. v = 6 m/s
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Apr 1, 2022 · The Collision Theory Gizmo™ allows you to experiment with several factors that affect the rate at which reactants are transformed into products in a chemical reaction. You will need blue, green, and orange markers or colored pencils for the first part of this activity.
Reducing Force in a Collision. There are two possible types of collisions: ______________ and _________________. If the colliding objects have _________ _________________, the collision is elastic. Examples include: In the game of pool, two pool balls are unchanged after a collision.
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(b) 5.46 × 106 eV (c) 5.46 MeV 2 (a) 3.90 m s–1 (b) E = −6.6 J 3 6.68 × 10–27 kg, so likely to be an alpha particle 5A.2 More collisions 1 (a) 22 000 Ns (b) 3.24 s 2 (a) The cue ball’s velocity is virtually the same as the black, but on a downward 45° trajectory. It is highly likely to enter the bottom corner pocket.
