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What is the acceleration of the object when a Newton force acts on it what is the objects mass?
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According to newton's second law of motion the acceleration of an object equals the net force acting on the object divided by the object's?
Newton's Second Law is usually written as:F = ma (Newton didn't write it like this, originally.) Solving for acceleration: a = F/m So, to get the acceleration, you divide the net force by the mass.
Why are the objects easier to push or pull than others?
An object with a greater mass needs more force. Mass is what gives an object resistance to acceleration. Newton's Third Law: force = mass x acceleration, or acceleration = force / mass.
How can you change an object's acceleration?
force=mass*acceleration Therefore acceleration = force/mass This means you can change an objects acceleration in two ways, either by applying a force to the object (for example pushing a shopping trolly). You can also change the acceleration of an object by changing the mass of the object (putting shopping in the shopping trolly)
The law of motion that states that an objects acceleration related to the net force applied and inversely related to the mass of the object is?
Newton's second law of motion states that an object's acceleration is directly related to the net force applied and inversely related to the mass of the object.
What depends on an objects mass and velocity?
An objects acceleration depends on its mass and the force acting on it. Newton's second law, F = ma.
According to newton's second law of motion the acceleration of an object equals the net force acting on the object divided by the object's?
Newton's Second Law is usually written as:F = ma (Newton didn't write it like this, originally.) Solving for acceleration: a = F/m So, to get the acceleration, you divide the net force by the mass.
Why does the object with less mass have a larger acceleration?
Newton's Second Law says force = mass * acceleration. If you push on two objects with the same force, the object with the smaller mass will have a greater acceleration.
Why are the objects easier to push or pull than others?
An object with a greater mass needs more force. Mass is what gives an object resistance to acceleration. Newton's Third Law: force = mass x acceleration, or acceleration = force / mass.
What happens to an objects acceleration if you increase the force on the object?
If you increase the force on an object acceleration increases . As F = m*a, where F = Force , m = mass of the object & a = acceleration
How can you change an object's acceleration?
force=mass*acceleration Therefore acceleration = force/mass This means you can change an objects acceleration in two ways, either by applying a force to the object (for example pushing a shopping trolly). You can also change the acceleration of an object by changing the mass of the object (putting shopping in the shopping trolly)
What was newton the first to realize about acceleration?
Newton first realized that acceleration depends on the amount of force applied to that object
The law of motion that states that an objects acceleration related to the net force applied and inversely related to the mass of the object is?
Newton's second law of motion states that an object's acceleration is directly related to the net force applied and inversely related to the mass of the object.
What is the law that states that the unbalanced force acting on an object equals the objects mass time it's acceleration?
That is Newton's 2nd Law of MotionF=MxA [Force=Mass x Acceleration] is Newton's 2nd Law of Motion.-From your fellow 6th grader
What do you get when you multiply an object an objects mass the acceleration?
Force
A 3000 N force gives an object an acceleration of 15ms2. The mass of the object is?
Just use Newton's Second Law. That is, divide the force by the acceleration.
How are mass and acceleration related?
Newton's Second Law: force = mass x acceleration
What law is the second Newton's law?
Newton's Second Law of motion refers to the relationship between force, mass and acceleration. Force is equal to the mass of an object times its acceleration. F=ma or Acceleration of an object is directly proportional to the Force applied to the object, and inversely proportional to the mass of the object. a=F/m
