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What acceleration will result when a 10 N force is applied on a 5 kg block?

What acceleration will result when a 10 N force is applied on a 5 kg block?

2 Answers By Expert Tutors Here the force is 10N and the mass is 5 kg. Dividing both sides by 5kg, we get a = 2 m/s^2.

What is the acceleration of an object with 5kg mass if 10 of force is applied?

F = ma (magnitude-wise) so if the force applied on the body is 10N, 10 N = 5 kg × a m/s², ‘a’ being the acceleration of the body, a = F/m = 10÷5 = 2 m/s².

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What is the force applied on a body with 5 kg of mass and an acceleration of 2 7 MS?

Hence, the force acting on a body of mass 5 Kg and accelerating with an acceleration of 2 ms-2 is F = 10N.

What will be the object’s acceleration if its mass is 5 kg and the force acting on it is 10 Newton?

Answer : 2 m/s²

What is the acceleration of an 18 kg mass pushed by 9 N?

Which means A = 4.5 meters per second per second.

What is the mass of an 800 newton person?

80 kg
The man’s mass is m = 800 N/g = 80 kg.

What force must be exerted to lift a 50 N object with an acceleration of 10m S 2?

Therefore, the force that must be exerted to lift a 50 Newton object with an acceleration of 10 metre per second is 100 N.

What force is needed to accelerate a 5kg mass at 10m s2?

So the answer is Fnet=50N .

What is the force applied on a body with 5 kg mass and 5 m S²?

Explanation: According to the second law of motion, the force on a body is equal to the rate change of its momentum. On simplifying we get, F = ma. Therefore, Force = 5 x 7 = 35 N.

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What is unit force?

The SI unit of force is the newton, symbol N. The metre, unit of length — symbol m. The kilogram, unit of mass — symbol kg. The second, unit of time — symbol s.

What is the acceleration of 25 kg mass pushed by a 10 N force?

9.8ms2 .

How do you find the resultant force from mass and acceleration?

If we know the mass m of an object and the acceleration a produced by the forces that act on it, we can find the resultant force using Newton’s Second Law. Indeed, according to Newton’s Second Law, the force F that alone produces the acceleration a on an object of mass m is: This force F is our resultant force. So, we can write:

How do you calculate the horizontal force of gravity?

There are two horizontal forces – friction and the applied force. Since there is no vertical acceleration, normal force = gravity force. Each of these forces can be determined using the equation F grav = m • g = (0.765 kg) • (9.8 m/s/s) = 7.497 N. The force of friction can be determined using the equation F frict = mu • F norm.

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What is the resultant force if the object is subject to?

According to the above equation, if an object is subject to no forces, then the resultant force is zero, and if an object is subject to only one force, then the resultant force is equal to that force. These two cases are pretty simple, but what about an object subject to two or more forces?

What force is used to accelerate an object to the right?

An applied force of 20 N is used to accelerate an object to the right across a frictional surface. The object encounters 10 N of friction. Use the diagram to determine the normal force, the net force, the coefficient of friction (μ) between the object and the surface, the mass, and the acceleration of the object.