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If something has a smaller acceleration, it means that its velocity is changing at a slower rate over time compared to something with a larger acceleration. Acceleration is the rate of change of velocity, so a smaller acceleration signifies a gentler change in speed or direction.
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How does the acceleration of the compare with the acceleration of the rifle?
The acceleration of the bullet is greater than the acceleration of the rifle because the bullet has a much smaller mass. Newton's second law, F=ma, states that the acceleration is inversely proportional to mass given the same force, so the smaller mass of the bullet results in a greater acceleration for the same force applied.
Would a bigger ball have more acceleration than a smaller ball or be the same as a smaller ball?
Assuming all other factors are equal, a bigger ball would have the same acceleration as a smaller ball when subject to the same force. This is because acceleration is dependent on force and mass, and in this case, the increased mass of the bigger ball would require more force to achieve the same acceleration as the smaller ball.
Does a smaller object with the same force will accelerate the same than a larger object?
The smaller object will have a larger acceleration than the larger object. This is because, from Newton's second law, the acceleration of a body is given by: a = F/m where a is acceleration F is resultant force and m is mass F is constant, so acceleration is inversely proportional to mass. Hence, the smaller object will have a larger acceleration.
What is the experimental acceleration smaller than the theoretical acceleration?
An experimental acceleration smaller than the theoretical acceleration could be due to errors in measurement, equipment limitations, or external factors affecting the experiment. It is important to carefully analyze the experimental setup, identify sources of error, and make adjustments to improve the accuracy of results.
If the same force is applied to two different objects which one will have the smaller acceleration?
The object with the larger mass will have the smaller acceleration when the same force is applied to both objects. This is described by Newton's second law of motion, which states that acceleration is inversely proportional to mass when force is constant.
What happens to the acceleration when something slows down?
Deaceleration, I'm in basic physics and i know that. its not that hard. but it is a type of acceleration.
Does a trolley with a bigger mass have a bigger acceleration down an inclined friction compensated plane or does it have a smaller acceleration?
smaller
How does the acceleration of the compare with the acceleration of the rifle?
The acceleration of the bullet is greater than the acceleration of the rifle because the bullet has a much smaller mass. Newton's second law, F=ma, states that the acceleration is inversely proportional to mass given the same force, so the smaller mass of the bullet results in a greater acceleration for the same force applied.
How does force affect stationary object of different masses?
Force accelerates stationary masses as acceleration a=f/m; theacceleration is inverse to the mass. The smaller the mass the larger the acceleration and the larger the mass the smaller the acceleration.
How acceleration works?
acceleration work by speed when something is going fast and when it and go over or faster with something.
Would a bigger ball have more acceleration than a smaller ball or be the same as a smaller ball?
Assuming all other factors are equal, a bigger ball would have the same acceleration as a smaller ball when subject to the same force. This is because acceleration is dependent on force and mass, and in this case, the increased mass of the bigger ball would require more force to achieve the same acceleration as the smaller ball.
Does a smaller object with the same force will accelerate the same than a larger object?
The smaller object will have a larger acceleration than the larger object. This is because, from Newton's second law, the acceleration of a body is given by: a = F/m where a is acceleration F is resultant force and m is mass F is constant, so acceleration is inversely proportional to mass. Hence, the smaller object will have a larger acceleration.
What is the experimental acceleration smaller than the theoretical acceleration?
An experimental acceleration smaller than the theoretical acceleration could be due to errors in measurement, equipment limitations, or external factors affecting the experiment. It is important to carefully analyze the experimental setup, identify sources of error, and make adjustments to improve the accuracy of results.
What is the relationship of acceleration and the mass of the object according to Newtons second law of Motion?
When force is constant, mass and acceleration are inversely related. ma=k, m=k/a or a=k/m. The smaller the mass, the greater the acceleration. The greater the mass the smaller the acceleration. Because force and acceleration are both vectors, the direction of acceleration is the same as the direction of force.
If the mass of an object is increased with no change in the force applied what will be the difference in its acceleration?
What you are wanting to know is found in Newton's Second Law. The equation used is Acceleration = (Net force)/(Mass) or Force equals mass times acceleration; [F = m * a] So, if the mass is increased but the force remains constant, then the acceleration will decrease. (For the same force applied, larger masses experience less acceleration than smaller masses.)
If the same force is applied to two different objects which one will have the smaller acceleration?
The object with the larger mass will have the smaller acceleration when the same force is applied to both objects. This is described by Newton's second law of motion, which states that acceleration is inversely proportional to mass when force is constant.
Will a bigger sprocket on the front give you more acceleration?
The key to better acceleration or higher top speed is ratios, but if you change to a smaller sprocket at both ends the changes will cancel each other out and leave you pretty much where you started. If you want faster acceleration go for a smaller front or for a bigger rear.
