A grooved track was used by a group of students in performing aConservation of Linear Momentum experiment. The group hasused two balls of masses 64.8 g (ball A) and 42.3 g (ball B) and aheight of fall y = 78 cm. The distances covered by the balls beforeand after collision are indicated below.Ball ABall BTrialXA, (m)XA', (m)X8', (m)11.260.341.4721.200.261.4231.170.241.41 (Express your answers in four (4) decimalplaces.)1.Determine the velocity of ball A beforeand after the collision in m/s.2. Determine the momentum of ball Abefore and after the collision in kg m/s3. Determine the velocity of ball B beforeand after the collision in m/s.4. Determine the momentum of ball Bbefore and after the collision in kg m/s5. The TOTAL momentum before and afterthe collision in kg m/s

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A grooved track was used by a group of students in performing a Conservation of Linear Momentum experiment. The group has used two balls of masses 64.8 g (ball A) and 42.3 g (ball B) and a height of fall y = 78 cm. The distances covered by the balls before and after collision are indicated below. Ball A Trial Ball B XB', (m) XA, (m) XA', (m) 1 1.26 0.34 1.47 2 1.20 0.26 1.42 3 1.17 0.24 1.41

A grooved track was used by a group of students in performing a Conservation of Linear Momentum experiment. The group has used two balls of masses 64.8 g (ball A) and 42.3 g (ball B) and a height of fall y = 78 cm. The distances covered by the balls before and after collision are indicated below. Ball A Trial Ball B XB', (m) XA, (m) XA', (m) 1 1.26 0.34 1.47 2 1.20 0.26 1.42 3 1.17 0.24 1.41

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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Question

A grooved track was used by a group of students in performing a
Conservation of Linear Momentum experiment. The group has
used two balls of masses 64.8 g (ball A) and 42.3 g (ball B) and a
height of fall y = 78 cm. The distances covered by the balls before
and after collision are indicated below.
Ball A
Ball B
Trial
XA, (m)
XA', (m)
X8', (m)
1
1.26
0.34
1.47
2
1.20
0.26
1.42
3
1.17
0.24
1.41

(Express your answers in four (4) decimal
places.)
1.Determine the velocity of ball A before
and after the collision in m/s.
2. Determine the momentum of ball A
before and after the collision in kg m/s
3. Determine the velocity of ball B before
and after the collision in m/s.
4. Determine the momentum of ball B
before and after the collision in kg m/s
5. The TOTAL momentum before and after
the collision in kg m/s

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