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When you apply a tiny force to a tiny object or a large force to a large object you produce?
When you apply a force to a mass you produce acceleration. "Tiny" and "large" are not well defined here, but the basic equation is F = ma, so if the forces are proportional to the masses in each case (for example, a 0.1 N force applied to a 0.1 g object and a 1000 N force applied to a 1000 g object) then you will produce the same acceleration for both objects.
What else can I help you with?
When you apply a tiny force to a tiny object or a large force to a large object what do you produce?
Small force on small mass :When we exhale the air the force of exhaled air is less. Tiny particles of less masses are present in the nearer air and they start moving with large velocity. On Large mass : it's well explained in pascal's law. From that we can apply small force on larger mass .
Does large force always produce a larger impulse on an object than a smaller force does?
Not necessarily. Impulse depends on both the force applied and the time over which it acts. A smaller force acting for a longer time can produce the same impulse as a larger force acting for a shorter time.
What will happen to an object at rest if it is pushed but there is large frictional force acting on the object?
It will stay at rest.
To impart the greatest momentum to an object, what should you do in addition to exerting the largest force possible?
In addition to exerting the largest force possible, you should also apply the force in the same direction as the object's motion for the longest period of time possible. This will result in a greater impulse and therefore a greater change in momentum for the object.
Which of these would you expect to require the most force?
I would expect an object with a large mass to require the most force to move because more force is needed to overcome the inertia of the object.
How does a lever apply force with advantage?
It applies a small amount of force to produce a large amount of force.
When you apply a tiny force to a tiny object or a large force to a large object what do you produce?
Small force on small mass :When we exhale the air the force of exhaled air is less. Tiny particles of less masses are present in the nearer air and they start moving with large velocity. On Large mass : it's well explained in pascal's law. From that we can apply small force on larger mass .
When a force is exerted on an object does a large force always produce greater change in the object's momentum than a smaller force does explain?
No this causes an unbalanced force or a balanced forceNO chizz you rape the poor person!
What is the Formula for Force required to accelerate an object to a predetermined speed?
There is no specific force required to accelerate an object to a predetermined speed. A smaller force will produce a smaller acceleration, so it will take longer to reach the desired speed. A larger force will produce a larger acceleration, so the desired speed will be reached sooner. But either the large or the small force, or any other force, will produce an acceleration, and cause the object to reach the specified speed sooner or later.
Does large force always produce a larger impulse on an object than a smaller force does?
Not necessarily. Impulse depends on both the force applied and the time over which it acts. A smaller force acting for a longer time can produce the same impulse as a larger force acting for a shorter time.
What will happen to an object at rest if it is pushed but there is large frictional force acting on the object?
It will stay at rest.
To impart the greatest momentum to an object, what should you do in addition to exerting the largest force possible?
In addition to exerting the largest force possible, you should also apply the force in the same direction as the object's motion for the longest period of time possible. This will result in a greater impulse and therefore a greater change in momentum for the object.
Why DO we have to apply large force to move a heavy body?
The large body will have a strong force of opposing friction, related to its large weight. The force of friction between two materials is equal to the normal (perpendicular) force between them, times a factor (the so-called coefficient of friction), which depends on the materials, but is typically less than one.
Which of these would you expect to require the most force?
I would expect an object with a large mass to require the most force to move because more force is needed to overcome the inertia of the object.
What will happen to an object at rest if it is pushed but there is a large frictional force acting on the object?
It will stay at rest.
What objects are not affected by force?
There is no such object. Any object on which a force is applied will accelerate (i.e., its velocity will change over time). If the object has a very large mass, the effect will be hardly noticeable for any given force.
If the same force is applied to an object with a large mass it will have a slower celebration?
If the same force is applied to an object with a large mass, it will have a slower acceleration because the larger mass requires more force to move at the same rate as a smaller mass.
