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According to Newton's Second Law of Motion, the greater the force, the greater the acceleration. So if you were to begin pushing a shopping cart harder, you go faster and there is more acceleration. If you were to push the cart softer there would be less acceleration.
Acceleration is expressed in meters per second squared, not just meters per second which is a speed.To calculate this, just use the formula force = mass x acceleration. Since you are using standard SI units, the result will be in Newton.
because you are adding more weight to the shopping cart
You would only need to know the accleration of the cart, and it's mass. Since there are wheels on the cart, you shouldn't have to worry about friction. It is as simple as newtons second law Force = mass times accleration. If you know two of these quantities, you can solve the equation for the third. Hope this helps!
Yes. For example, the force of a 3-yr-old child pushing a shopping cart is typically less than the force of a freight train pushing the same cart. Similarly, the mutual forces of gravity between the Earth and the same child are less than the gravitational forces between the Earth and her father.
According to Newton's Second Law of Motion, the greater the force, the greater the acceleration. So if you were to begin pushing a shopping cart harder, you go faster and there is more acceleration. If you were to push the cart softer there would be less acceleration.
20m
The answer is like force can be pull or push.Both are force.For example if you are pushing a shopping cart full of milk,that is force from your muscles.It is motion to.
was the day I was going Mia
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yes its possiable if the cart is metel.
It can be either. Horse-drawn carts are virtually all pulled. Library and shopping carts are pushed. However, any pulling or pushing force that is exerted includes a pushing force against the ground (i.e. friction).
Acceleration is expressed in meters per second squared, not just meters per second which is a speed.To calculate this, just use the formula force = mass x acceleration. Since you are using standard SI units, the result will be in Newton.
because you are adding more weight to the shopping cart
No. Gravitational force is the attractive force that objects of mass have on other matter (including light). Pushing a grocery cart is an example of force, just not a gravitational force. Now, dropping a grocery cart would be an example of gravitational force, since it is the Earth's mass that is attracting it towards the ground.
700 joules
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