Իմպուլսային իմպուլսի բախումներ. խնդիրներ և լուծումներ
1. A 40-gram rubber bullet shot horizontally to the wall, as shown in the figure below. The bullet is reflected at the same speed. What is the change in իներցիա գնդակի՞
Հայտնի է.
Զանգված (m) = 40 gram = 0.04 kg
Սկզբնական արագություն (vo) = – 50 մ/վրկ
Վերջնական արագություն (vt) = 50 մ/վ
Direction of ball’s displacement (direction of velocity) is opposite so that the initial velocity and the final velocity have opposite signs.
Ցանկալի է. The change in momentum of ball
Լուծում.
The change in momentum :
Δp = m (vt - գo) = (0.04)(50 – (-50)) = (0.04)(50 + 50)
Δp = (0.04)(100) = 4 Նվ
2. A 75-gram rubber ball thrown horizontally to hit the wall, as shown in figure below. The ball is reflected at the same speed. What is the impulse.
Հայտնի է.
Գնդակի զանգվածը (մ) = 75 գրամ = 0.075 կգ
Սկզբնական արագություն (vo) = -20 մ/վ
Վերջնական արագություն (vt) = 20 մ/վ
Direction of ball’s displacement (direction of velocity) is opposite so that the initial velocity and the final velocity have opposite signs.
Ցանկալի է. Իմպուլս
Լուծում.
Impulse = The change in momentum
I = Δp
I = մ (վt - գo) = 0.075 (20 – (-20)) = 0.075 (20 + 20) = 0.075 (40)
I = 3 N s = 3 Newton second
3. Two balls, A and B, approach each other along a horizontal plane. Velocity of ball A, vA = 4 m/s and velocity of ball B, vB = 6 m/s. The collision is perfectly elastic. The velocity of object B after collision is 4 m/s. What is the velocity of ball A after collision.
Հայտնի է.
Գնդակի զանգվածը A (մ)A) = մ
Գնդակի B զանգվածը (մB) = մ
Velocity of ball A before collision (vA) = 4 մ/վ
Velocity of ball B before collision (vB) = 6 մ/վ
Velocity of ball B after collision (vB') = 4 մ/վ
SE busca: Velocity of ball A after a collision (vA')
Լուծում.
Mass of balls are same, so that :
Velocity of ball A before collision (vA) = velocity of ball B after collision (vB') = 4 մ/վ
Velocity of ball B before collision (vB) = velocity of ball A after collision (vA') = 6 մ/վ
4. Two objects հետ the same mass move in a straight line approaching each other, as shown in the figure below. If v2 is the velocity of the object 2, after the collision to the right at 5 m.s-1, then the velocity of the object (1) after the collision is…
Հայտնի է.
Object’s mass = m
Velocity of object 1 before collision (v1) = 8 մ/վ
Velocity of object 2 before collision (v2) = 10 մ/վ
Velocity of object 2 after collision (v2') = 5 մ/վ
Ցանկալի է. Velocity of object 1 after collision (v1')
Լուծում.
m1 v1+ մ2 v2 = մ1 v1' + մ2 v2'
մ (վ)1 + v2) = մ (վ1' + v2')
v1 + v2 = v1' + v2'
8 + 10 = v1' + 5
18 = վ1' + 5
v1' = 18-5
v1' = 13 մ/վ
5. Object A with mass of 4 kg and object B with mass of 5 kg approach each other along a horizontal plane as shown in figure below. After collision, velocity of ball A = 4 m/s and velocity of ball B = 2 m/s. What is the velocity of ball B before collision.
Հայտնի է.
Mass of object A (mA) = 4 կգ
Mass of object B B (mB) = 5 կգ
Velocity of object A before collision (vA) = 6 մ/վ
Velocity of object A after collision (vA') = 4 մ/վ
Velocity of object B after collision (vB') = -2 մ/վ
Plus and minus sign indicates that balls have opposite direction.
Ցանկալի է. Velocity of ball B before collision (vB)
Լուծում.
mA vA + մB vB = մA vA' + մB vB'
(4) (6) + (5) (-2) = (4) (4) + (5) (vB')
24 – 10 = 16 + 5(vB')
14 – 16 = 5 (vB')
-2 = 5 (vB')
vB' = -2/5
vB' = -0.4
Minus sign indicates that direction of ball after collision is opposite with the direction of ball before collision.
6. A 2-kg ball and a 1-kg ball approach each other along a horizontal plane, as shown in figure below.
Velocity of ball 1, v1 = 2 մվ-1 and velocity of ball 2, v2 = 4 մվ-1. After the collision, both stick together. What is the velocity after the collision?
Հայտնի է.
Mass of ball 1 (m1) = 2 կգ
Mass of ball 2 (m2) = 1 կգ
Velocity of ball 1 before collision (v1) = 2 մ/վ
Velocity of ball 2 before collision (v2) = -4 մ/վ
Direction of ball’s փոխադրում (direction of velocity) is opposite so that velocity of ball 1 and velocity of ball 2 have opposite signs.
Ցանկալի է. Velocity after collision (v’)
Լուծում.
m1 v1 + մ2 v2 = (մ1 + մ2) վ'
(2)(2) + (1)(-4) = (2 + 1) v'
4 – 4 = (3) v'
0 = (3) v'
v' = 0
1. What is the impulse-momentum theorem?
Պատասխան The impulse-momentum theorem states that the impulse applied to an object is equal to the change in its momentum. Mathematically, , Որտեղ is the average force applied, is the time for which the force is applied, and is the change in momentum.
2. How is the conservation of momentum principle applied during collisions?
Պատասխան In an isolated system (no external forces), the total momentum before a collision is equal to the total momentum after the collision. This is true for both elastic and inelastic collisions.
3. Differentiate between an elastic and an inelastic collision.
Պատասխան In an elastic collision, both momentum and kinetic energy are conserved. This means that the total kinetic energy before the collision is equal to the total kinetic energy after the collision. In an inelastic collision, while momentum is conserved, kinetic energy is not necessarily conserved, and some may be transformed into other forms of energy like heat or sound.
4. Why does a bouncy ball eventually stop bouncing when dropped from a certain height?
Պատասխան Even though the ball undergoes approximately elastic collisions with the ground, not all of its kinetic energy is converted back into potential energy. Some energy is lost to other forms such as heat, sound, and internal deformations in the ball. As a result, with each bounce, the height decreases until the ball eventually stops.
5. How does impulse relate to a change in velocity?
Պատասխան Impulse is the product of average force and the time for which it acts on an object. Given the impulse-momentum theorem, impulse is equal to the change in momentum. For an object of constant mass, momentum () է . Hence, a change in momentum translates to a change in velocity.
6. In a two-car collision where both cars come to a complete stop, is momentum still conserved?
Պատասխան Yes, the momentum is still conserved. The total momentum of the two cars before the collision would be equal to the total momentum after the collision. Since both cars come to a stop, their individual momenta are zero, but their combined momentum is still the same as before the collision.
7. How does the impulse delivered by an airbag in a car reduce the impact on a passenger during a collision?
Պատասխան An airbag increases the time over which the deceleration of the passenger occurs. By extending the time, the average force experienced by the passenger (due to the impulse-momentum theorem) is reduced, thus lessening the injury risk.
8. Why do athletes perform a “roll” when landing from a significant height?
Պատասխան By rolling upon landing, an athlete increases the duration of the impact. This longer time decreases the average force experienced during the landing, reducing the risk of injury. It’s an application of the impulse-momentum theorem in real life.
9. How is momentum related to Newton’s third law of motion?
Պատասխան Newton’s third law states that for every action, there is an equal and opposite reaction. In collisions, one object exerts a force on the second, and the second exerts an equal and opposite force on the first. This means the change in momentum (or impulse) experienced by one object is equal in magnitude and opposite in direction to that of the other object, ensuring the conservation of momentum.
10. How does the angle of incidence in a collision affect the resultant velocities of colliding objects?
Պատասխան The angle of incidence can determine the direction of the resultant velocities post-collision. In two-dimensional collisions, the conservation of momentum must be applied separately for the horizontal and vertical components. Depending on the angle of collision and the properties of the objects, this can lead to various outcomes in terms of direction and magnitude of the resultant velocities.
- What is the relationship between impulse and momentum?
- Պատասխան: Impulse is the change in momentum of an object. Mathematically, impulse is the product of force and the time over which it acts, and it’s equal to the change in momentum.
- How does the conservation of momentum apply to collisions?
- Պատասխան: In an isolated system (where no external forces are acting), the total momentum before a collision is equal to the total momentum after the collision. This is the principle of conservation of momentum.
- Differentiate between elastic and inelastic collisions.
- Պատասխան: In an elastic collision, both momentum and kinetic energy are conserved. In an inelastic collision, while momentum is conserved, kinetic energy is not. Perfectly inelastic collisions are a subset where the objects stick together after the collision.
- Why does a bouncy ball eventually stop bouncing when dropped repeatedly?
- Պատասխան: No collision is perfectly elastic due to factors like air resistance and deformation energy. With each bounce, some of the ball’s kinetic energy is converted to other forms, such as heat, leading to smaller and smaller subsequent bounces until it stops.
- How does the impulse provided by an airbag reduce the chances of injury during a car crash?
- Պատասխան: An airbag increases the duration of the collision. By doing so, it reduces the average force exerted on the passenger, thus reducing the risk of injury.
- Why is it easier to catch a raw egg by moving your hand with the egg’s motion upon catching rather than keeping your hand static?
- Պատասխան: By moving your hand with the egg’s motion, you increase the time of impact. This reduces the average force on the egg, making it less likely to break.
- How does a karate expert break a board or brick with their hand without hurting themselves?
- Պատասխան: A karate expert uses a swift, precise motion to impart a large impulse in a short period of time. The quick transfer of momentum breaks the board, but the hand doesn’t stay in contact long enough to absorb a damaging force.
- Why is it dangerous to be at rest in the middle of a high-speed highway?
- Պատասխան: If a car traveling at high speed collides with a stationary object (or person), the change in momentum (and thus the impulse) happens in a very short time, leading to very large forces. These large forces can cause severe damage.
- When two objects collide, why might one experience a larger force than the other, even if their changes in momentum are the same?
- Պատասխան: While the change in momentum (and thus the impulse) is the same for both objects due to Newton’s third law, the force experienced by an object depends on how quickly the momentum change occurs. If one object has a shorter duration of collision, it will experience a larger force.
- Why do some sports equipment, like baseball gloves or cricket pads, have padding?
- Պատասխան: Padding increases the time over which a collision (like a ball hitting the equipment) occurs. This spreads out the impulse over a longer time, reducing the average force and potential injury.