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Ex: During a softball game, a 0.2kg softball is hit by a bat. If the net force exerted on the softball by the bat is 300N (Newton's), what is the softball's acceleration?0.2kg is mass, so you would take 0.2 divided by 300=1,500... your welcome smarty
Force (newtons) = mass x acceleration
An object's force (in Newtons) is the product of its velocity and acceleration: F = m x a
A force of 4500 Newtons is required.
Force = mass * acceleration The units for force are Newtons (N)
At the point of impact, since force = mass x acceleration, acceleration = 25/0.5 = 50 N/kg If the catcher exerts a force of 25 newtons against the 0.5 kg ball, then he will cause it to accelerate at the rate of 50 m/sec-squared. If he happens to exert the force in the direction opposite to the velocity of the ball ... a common occurrence for a catcher ... then the acceleration is also opposite to the velocity of the ball, and the ball slows down.
Ex: During a softball game, a 0.2kg softball is hit by a bat. If the net force exerted on the softball by the bat is 300N (Newton's), what is the softball's acceleration?0.2kg is mass, so you would take 0.2 divided by 300=1,500... your welcome smarty
Force equals mass times acceleration. Similarly, acceleration equals force divided by mass. So, 50 Newtons divided by 0.5 kilograms is 100 meters per second squared.
Force (newtons) = mass x acceleration
F = MA, where F is the force in newtons, M is the mass is kilograms, and A is the acceleration in m s-2.
Acceleration = force in newtons divided by mass in kilograms
Force=mass*acceleration
An object's force (in Newtons) is the product of its velocity and acceleration: F = m x a
mass, acceleration, motion - speed and velocity, newtons 1st law force = mass * acceleration speed requires force to change force acts on velocity to change it newtons 1st law describes force
A force of 4500 Newtons is required.
Force in Newtons = mass in kilograms * acceleration ( can be gravitational acceleration )F = maThe mathematical relationship between force and acceleration is directly proportional.
The measure of a force acting on a body is the mass of the body multiplied by its acceleration in the direction of the applied force.