Problem 5) There are two particles on course for a direct collision as shown in the "Before" image of Figure 4. An illustration of the two particles is also shown in the "After" image of Figure 4. We are given the masses of particles 1 and 2 as m₁ = 1 kg and m₂ = 2 kg, respectively. 1 30° 5 m/sec Before 10 m/sec After 20° 2 y Lox ட. Figure 4: Colliding particles. Given this information, answer the following questions: 3 m/sec 5a) The two particles, 1 and 2, are in contact with one another for a very short period of time At. What is the impulse on the system during this short time of contact? 5b) Find the final speed v₁f and direction 0 of particle 1 after the collision. 5c) What is the impulse that particle 1 experiences during this short time of contact?
Problem 5) There are two particles on course for a direct collision as shown in the "Before" image of Figure 4. An illustration of the two particles is also shown in the "After" image of Figure 4. We are given the masses of particles 1 and 2 as m₁ = 1 kg and m₂ = 2 kg, respectively. 1 30° 5 m/sec Before 10 m/sec After 20° 2 y Lox ட. Figure 4: Colliding particles. Given this information, answer the following questions: 3 m/sec 5a) The two particles, 1 and 2, are in contact with one another for a very short period of time At. What is the impulse on the system during this short time of contact? 5b) Find the final speed v₁f and direction 0 of particle 1 after the collision. 5c) What is the impulse that particle 1 experiences during this short time of contact?
Materials Science And Engineering Properties
1st Edition
ISBN:9781111988609
Author:Charles Gilmore
Publisher:Charles Gilmore
Chapter15: Experimental Methods
Section: Chapter Questions
Problem 5CQ
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Would impulse be zero since the particles have no external forces acting during the moment of contact? Please solve the entire problem.
Transcribed Image Text:Problem 5) There are two particles on course for a direct collision as shown in the "Before"
image of Figure 4. An illustration of the two particles is also shown in the "After" image of
Figure 4. We are given the masses of particles 1 and 2 as m₁ = 1 kg and m₂ = 2 kg,
respectively.
1
30°
5 m/sec
Before
10 m/sec
After
20°
2
y
Lox
ட.
Figure 4: Colliding particles.
Given this information, answer the following questions:
3 m/sec
5a) The two particles, 1 and 2, are in contact with one another for a very short period of time At.
What is the impulse on the system during this short time of contact?
5b) Find the final speed v₁f and direction 0 of particle 1 after the collision.
5c) What is the impulse that particle 1 experiences during this short time of contact?
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