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F = m Awhere . . .F = force acting on the massm = mass of the massA = acceleration of the massF = (2.5) x (6.0)= 15 kg-m/sec2 = 15 newtons
Newtons second law of motion
The object's acceleration is 0.35m/s2
The larger the force acting upon an object, the greater the acceleration of the object.
It depends on how great the force is acting against the newtons.
The object's mass in kg is determined by the formula: Mass = Force(N) divided by acceleration(9.8). So, 6.5N / 9.8 = 0.66kg
F = m Awhere . . .F = force acting on the massm = mass of the massA = acceleration of the massF = (2.5) x (6.0)= 15 kg-m/sec2 = 15 newtons
Newtons second law of motion
Newtons Second Law was F=ma, means the force(F) acting on object is equal to mass(m) of object times it's acceleration(a).
An object which is not moving is not experiencing any acceleration, other than the acceleration due to gravity, which, along with mass gives it its weight. The upward force (normal force) acting on the object is equal to but opposite to its weight, and all of the forces acting on the objects are in equilibrium so the net force is zero Newtons.
The object's acceleration is 0.35m/s2
The larger the force acting upon an object, the greater the acceleration of the object.
Use the formula force = mass x acceleration. In SI units, the force should be in newtons, the mass in kilograms, the acceleration in meters/second2.
When the net forces acting on an object sum to zero then the object's acceleration is zero.
Add the different forces together to find the net force. For example, if you have a force of -5N acting on an object and another force of 8N acting on that object, the net force is 3 N.
The mass of a person cannot be directly determined from their weight. Weight is a measure of the force of gravity acting on an object, while mass is a measure of the amount of matter an object contains. To calculate the mass of a person, you would need to divide their weight (300 newtons) by the acceleration due to gravity (approximately 9.8 m/s^2).
It depends on how great the force is acting against the newtons.