The force exerted by the player acting on the ball is the impulsive force.Ī martial artist makes use of impulsive force to demonstrate his skills in a number of tricks. When a tennis ball hits the racket, it is supplied with a high magnitude and short duration force that helps to change the direction of motion of the ball. This helps the ball to advance in the forward direction swiftly and also helps the ball to cover large distances. This leads to a short reaction time and the development of a large impulsive force. When the golf ball is hit by the player, it receives a sudden change in momentum. The impulsive force helps the ball to travel long distances in a short duration of time. This sudden change of momentum leads to the generation of an impulsive force. After the force is exerted by the player, the momentum increases to a higher value due to the development of velocity. Hence, the product of mass and velocity of the body, i.e., momentum, comes out to be zero. When the ball is at rest, the velocity is zero. © Texas Education Agency (TEA).When a football player kicks a ball suddenly with force, the ball shoots away. We recommend using aĪuthors: Paul Peter Urone, Roger Hinrichs Use the information below to generate a citation. Then you must include on every digital page view the following attribution: If you are redistributing all or part of this book in a digital format, Then you must include on every physical page the following attribution: ![]() If you are redistributing all or part of this book in a print format, Changes were made to the original material, including updates to art, structure, and other content updates. Want to cite, share, or modify this book? This book uses theĪnd you must attribute Texas Education Agency (TEA). Deaths during car races decreased dramatically when the rigid frames of racing cars were replaced with parts that could crumple or collapse in the event of an accident. A longer collision time means the force on the occupants of the car will be less. Another advantage is that a car will crumple in a collision, especially in the event of a head-on collision. One advantage of plastics is their lighter weight, which results in better gas mileage. Similarly, a padded dashboard increases the time over which the force of impact acts, thereby reducing the force of impact.Ĭars today have many plastic components. This is another example of an inverse relationship. By rearranging the equation for impulse to solve for force F net = Δ p Δ t, F net = Δ p Δ t, you can see how increasing Δ t Δ t while Δ p Δ p stays the same will decrease F net. ![]() But the force that brings the occupant to a stop will be much less if it acts over a larger time. The momentum change is the same for an occupant whether an airbag is deployed or not. The change in momentum is the difference between the final and initial values of momentum.įigure 8.2 Vehicles have safety features like airbags and seat belts installed.Īirbags allow the net force on the occupants in the car to act over a much longer time when there is a sudden stop. Newton actually stated his second law of motion in terms of momentum: The net external force equals the change in momentum of a system divided by the time over which it changes. Recall our study of Newton’s second law of motion ( F net = m a). Force influences momentum, and we can rearrange Newton’s second law of motion to show the relationship between force and momentum. Momentum is so important for understanding motion that it was called the quantity of motion by physicists such as Newton. Since mass is a scalar, when velocity is in a negative direction (i.e., opposite the direction of motion), the momentum will also be in a negative direction and when velocity is in a positive direction, momentum will likewise be in a positive direction. Momentum is a vector and has the same direction as velocity v. A large, fast-moving object has greater momentum than a smaller, slower object. Therefore, the greater an object’s mass or the greater its velocity, the greater its momentum. You can see from the equation that momentum is directly proportional to the object’s mass ( m) and velocity ( v).
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