Which statement is true because of Newton's second law?
Responses
When the net force on an object increases, the object's acceleration decreases.
When the net force on an object increases, the object's acceleration decreases.
When the net force on an object decreases, the object's acceleration increases.
When the net force on an object decreases, the object's acceleration increases.
When the net force on an object decreases, the object's acceleration decreases.
When the net force on an object decreases, the object's acceleration decreases.
When the net force on an object decreases, the acceleration doesn't change.
The correct statement is: When the net force on an object increases, the object's acceleration increases.
The correct statement that is true because of Newton's second law is:
"When the net force on an object increases, the object's acceleration increases."
The correct statement that aligns with Newton's second law is:
"When the net force on an object decreases, the object's acceleration increases."
Newton's second law of motion states that the acceleration of an object is directly proportional to the net force acting on it and inversely proportional to its mass. Mathematically, this law can be expressed as F = ma, where F is the net force applied to an object, m is the mass of the object, and a is the resulting acceleration.
According to this equation, when the net force acting on an object decreases, but the mass remains constant, the acceleration of the object will increase. This means that the object will speed up or change its direction at a faster rate. Conversely, if the net force increases, the acceleration will also increase, causing the object to move faster or change direction more quickly.
It is essential to understand Newton's second law and how it relates to force, mass, and acceleration when analyzing the motion of objects.