50
600N
F=m*a
F = 60kg * 10m/s^2
F= 600 kg.m/s^2
F = 600N
F = m x a Therefore
F = 60 kg x 10 m/s2
F = 600 kg x m/s2
F = 600 N
Force = Mass x Acceleration.
F = MA.
40Kg x M/s/s = 40Kg x M/s^2
Force = Mass x Acceleration
F = 10 x 60
F = 600N
F = ma, so if mass is constant, you need to double the force to double the acceleration. The answer is 20 N.
The more the mass, the more momentum you will need for an object to speed up more, or accelerate.
Near the surface of the Earth, the rate of acceleration due to gravity is equal to 32 feet per second per second, or 9.8 meters per second per second. That means that if you release an object from a tall tower, the object will fall. After one second, it will be traveling at 32 feet per second, and will have traveled 16 feet. After 2 seconds, it will be traveling at a speed of 64 feet per second, and will have fallen 48 feet. In the absence of air resistance, the object will continue to accelerate at this rate, speeding up until it hits the ground. Far from the Earth, the acceleration of gravity depends on the distance to the object; the force of gravity falls off by the square of the distance. Around other planets or moons, the force is proportional to the mass of the planet.
This depends on in which direction the force is being applied. If the force is applied against the direction of movement, it will slow a body down If the force is applied in the same direction of movement then it will cause the body to accelerate. If the force is applied in a direction at angle to the motion, the force can either cause the object to slow down or accelerate depending on the angle.
If an object moved with constant acceleration it's velocity must ?
F = m A = (25) x (8) = 200 newtons
9.8 meters per second each second = 9.8 m/s2.
F = ma, so if mass is constant, you need to double the force to double the acceleration. The answer is 20 N.
Newton's Second Law of Motion states that Force equals the product of mass and acceleration. Thus, the force required to accelerate a 200 kg object 15 meters per second squared equals 200*15. This is equivalent to 300 Newtons.
Force = mass x accelerationN = kg x accelerationacceleration = N/kg = 1 meter per second per second
At any time after it starts falling, an object is falling 9.8 meters per second (32.2 feet per second) faster than it was falling one second earlier.
That depends what data you are given. Close to the Earth's surface, such an object will accelerate at 9.8 meters/second2, so if it starts from rest, after "n" seconds, it will have a speed of "9.8n" meters/second.
A 20-newton force would cause acceleration at 6 m/sec The acceleration is given by the formula F=ma (Force = mass x acceleration) so for the same mass, doubling the force doubles the acceleration for the same mass.
as stated in newtons second law of motion- an object acted upon by an unbalanced force will accelerate in the direction of that force
It doesn't. Close to Earth's surface, any object will accelerate towards the center of the Earth at a rate of about 9.8 meters/second squared, regardless of the object's mass.
An object will continue accelerating as long as there is a force acting on it. (Newton's Second Law)
The more the mass, the more momentum you will need for an object to speed up more, or accelerate.