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How much force is needed to keep a 2kg object moving?
No force is needed to keep an object moving. An object with no forces on it keeps moving at a constant speed in a straight line. If there is any force acting on it to make it slow down, then you need just enough force to cancel the first one, in order to keep it moving.
What force must act on a body of mass 50 kg to produce an acceleration of 20m sec2?
The force required can be calculated using Newton's second law, F = ma. Given mass (m) = 50 kg and acceleration (a) = 20 m/s^2, the force (F) would be 1000 N. Hence, a force of 1000 N must act on the body to produce the given acceleration.
What would the acceleration of the object be the mass was triple while keeping the force the same?
The acceleration would also be trippled when the force is tippled. the relevant equation is: F=ma, where F= force m=mass a=acceleration
How much force is needed to accelerate an object twice as fast?
To accelerate an object twice as fast, you would need to exert twice the force. This is because force is directly proportional to acceleration, as defined by Newton's second law, F=ma. So if you double the acceleration, you must double the force.
What is the acceleration caused by your push on a ball?
The acceleration of the ball would depend on its mass and the force of the push. This is because force = mass times acceleration. You could manipulate this equation to solve for acceleration by dividing each side by mass. Acceleration therefore equals force/mass.
What force would be needed to produce an acceleration of 1 ms-2 on a ball of mass 1kg?
One Newton would be needed.
What force would be needed to produce an acceleration of 1 ms-2 on a ball of mass 1 kg?
The force needed would be equal to the mass of the ball multiplied by the acceleration, so 1 kg * 1 m/s^2 = 1 Newton.
What force would be needed to produce an acceleration of 4metre per second square on a ball of mass 6 kg?
The force needed can be calculated using Newton's second law: Force = mass x acceleration. Plugging in the values, we get Force = 6 kg x 4 m/s^2 = 24 Newtons. Thus, a force of 24 Newtons would be needed to produce an acceleration of 4 m/s^2 on a ball of mass 6 kg.
What force would be needed to produce an acceleration of 4 metre per second square in a ball of mass 6 kg?
The force required to produce an acceleration of 4 m/s^2 in a 6 kg ball can be calculated using Newton's second law, F = ma, where F is the force, m is the mass, and a is the acceleration. Plugging in the values, the force needed would be 24 N (Newtons).
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 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.
What force would be needed to produce an accelerationof 4-ms-2 on a ball of mass 6-kg?
Force(net) = Mass x Acceleration 6kg x 4m/s2 = 24kg•m/s2 = 24N
How much force is needed to accelerate a 25kg bowling bowl a 2mss?
The force needed to accelerate an object is given by the formula: force = mass x acceleration. For the bowling bowl with a mass of 25kg and acceleration of 2m/s^2, the force required would be 50 Newtons.
How much force it needed to accelerate a 25 kg bowling ball at?
The force needed to accelerate a 25 kg bowling ball would depend on the desired acceleration. Newton's second law states that force equals mass multiplied by acceleration (F = ma). If you specify the acceleration, the force required can be calculated using this formula.
An unbalanced force of 30 N gives an object an acceleration of 5. What force would be needed to give it an acceleration of 1?
If a force of 30 N imparts an acceleration of 5 to an object and we desire only one fifth of that acceleration, then we apply only one fifth of that force. Take the 30 N and divide it by 5 and we find that 6 N is the force required to give our test object an acceleration of 1.
Which of the quantitative properties would double if you doubled the mass of an object?
-- weight -- momentum when moving -- kinetic energy when moving -- force on it needed to produce a given acceleration -- potential energy at a given height
What type of motion would produce positive acceleration in an object?
Positive acceleration in an object can be produced by a force applied in the direction of its motion. This force will cause the object to increase its speed over time.
