Force = Mass × Acceleration true or false
Answers
Answer:
Force = mass × acceleration is the statement given by the Newton in his Second law thus this statement is True.
Explanation:
"Force is defined as the difference between momentum and time. Force is defined as mass times acceleration for a fixed mass." F = ma is the mathematical formula for this.
A is acceleration, m is mass, and F is force. This involves some simple math. While the acceleration doubles when the force is doubled, it is cut in half when the mass is doubled.
When there are unbalanced forces acting on an object, Newton's second law of motion applies. According to the second law, the mass of the item and the net force acting on it both affect how quickly an object accelerates.
When a body is subjected to a net force, its velocity either rises or falls. As a result, acceleration is the rate at which the body's velocity changes. Additionally, we notice that an object's acceleration increases with increasing force.
An object's acceleration is directly proportional to the net force applied on it and inversely proportional to its mass. An object's acceleration increases as the amount of force exerted on it does. A decreasing acceleration is caused by a rise in an object's mass.
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Answer:
Force = mass × Acceleration
Yes, the given statement is true.
Explanation:
- The product of mass and acceleration is force.
- The acceleration of an object is equal to the net force exerted on it divided.
- By its mass, or a = F m, in accordance with Newton's second rule of motion. When the mass of an item and the net force acting on it are known, the acceleration of that object can be determined using this equation for acceleration.
- This is represented mathematically as F = ma, where F is force, m is mass, and an is acceleration.
- The math behind this is fairly simple: If you double the force, you double the acceleration, but if you double the mass, you decrease the acceleration in half.
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