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What horizontal force must be applied to produce an acceleration of g for a 1 kg puck on a horizontal friction-free air table?
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How do you calculate the horizontal force that must be applied to produce an acceleration of 1.8 g?
F = M A F = force M = mass of the object being forced A = the object's acceleration You want A = 1.8 G = 1.8 x 9.8 = 17.64 meters per second2 Fnewtons = (17.64) x (Mkilograms)
What is the horizontal force that must be applied to produce an acceration of 2.8 g for 1.2 kg puck on a horizontal friction free air table?
Where the question says "2.8 g", we understand that to mean2.8 times the acceleration of gravity = 27.44 m/sec2 .F = M A = (1.2 kg) x (27.44 m/s2) = 32.928 newtons
For an object to be in projectile motion and what force must be acting on it?
Gravity must be the only force acting on the object, to produce downwards vertical acceleration. There is no force acting in the horizontal direction because there is no acceleration.
What happens to the acceleration as you increase the mass?
As per Newton's first law of motion, if the applied force remains the same, an increase in mass will result in a decrease in acceleration. In contrast, if the acceleration were to remain the same when the mass increases, there must be a greater force applied.
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 will the mass and acceleration produce if the applied force is constant?
If the applied force is constant, the acceleration will also be constant. To know the actual amount of acceleration, you divide the force by the mass.
How do you calculate the horizontal force that must be applied to produce an acceleration of 1.8 g?
F = M A F = force M = mass of the object being forced A = the object's acceleration You want A = 1.8 G = 1.8 x 9.8 = 17.64 meters per second2 Fnewtons = (17.64) x (Mkilograms)
What is the horizontal force that must be applied to produce an acceration of 2.8 g for 1.2 kg puck on a horizontal friction free air table?
Where the question says "2.8 g", we understand that to mean2.8 times the acceleration of gravity = 27.44 m/sec2 .F = M A = (1.2 kg) x (27.44 m/s2) = 32.928 newtons
For an object to be in projectile motion and what force must be acting on it?
Gravity must be the only force acting on the object, to produce downwards vertical acceleration. There is no force acting in the horizontal direction because there is no acceleration.
What does newtons 2nd law state?
Newtons 2nd law means that when force is applied on any object an acceleration is produced in the direction of force which is applied on it. The acceleration produced in the object is directly proportional to the force applied on the object i.e. if force increases then acceleration will also increase and the acceleration is inversely proportional to the mass of object i.e. if the mass of the body decreases then acceleration will increase. If force is represented by 'F', acceleration by 'a' and mass by 'm' then a is directly proportional to F a is inversely proportional to m
What happens to the acceleration as you increase the mass?
As per Newton's first law of motion, if the applied force remains the same, an increase in mass will result in a decrease in acceleration. In contrast, if the acceleration were to remain the same when the mass increases, there must be a greater force applied.
The law applied force states that a body's change in mass is proportional to the amount of force applied to it?
There is no such law. Newton's Second Law states that: force = mass x acceleration So, more force will produce more acceleration. More mass will result in less acceleration. However, the mass of a body usually doesn't change - but you can use this law to compare the same force applied to different objects, of a different mass.
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.
When two horizontal forces are exerted on a cart 750 N forward and 550 N backward the cart undergoes acceleration What additional force is needed to produce nonaccelerated motion?
200 backwards force.
What is the production of acceleration?
In very general terms, the application of a force will produce an acceleration.
A horizontal force acts a body that is free to move can it produce an acceleration if the force is less then the weight of that body?
Yes it can, and if less force is needed if you eliminate the possibility of friction. You can find many examples of this, but i think this is an excellent opportunity to devise an experiment and practice your scientific methods.
What produce when Newton's second law force applied to a body?
force, mass and rate of acceleration are complimentary, if you have two, you can find the other, the basic equation is: force (f) = mass (kg) * acceleration (m/s)/s f=m*a a=f/m m=f/a
