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What happends to acceleration if you double the force being applied?
Then the acceleration would also double.Then the acceleration would also double.Then the acceleration would also double.Then the acceleration would also double.
What happens to acceleration when force is doubled?
F=ma, if "a" doubles and "m" is the same, the resultant "F" will double. Acceleration is doubled if force is doubled, a1=f/m; a2= 2f/m= 2a1.
If you double the net force on an object what is the result of the acceleration?
If you double the net force on an object, the acceleration of the object will also double. This is in accordance with Newton's second law of motion, which states that the acceleration of an object is directly proportional to the net force acting on it.
How can you double the acceleration of an object if you cannot alter the object s mass?
You can double the acceleration of an object by applying twice the force on the object, following Newton's second law (F = ma). Increasing the force will result in a proportional increase in acceleration, without needing to alter the object's mass.
What happens to your weight if acceleration due to gravity somehow doubled?
If acceleration due to gravity doubled, your weight on Earth would also double. This means that the force of gravity pulling you downward would be twice as strong as it is currently, causing you to feel heavier.
What happens to the acceleration when mass and force are doubled?
Acceleration remains the same. Remember that Force equals Mass times Acceleration, or Acceleration equals Force divided by Mass. So, if both Force and Mass double, Force Divided by Mass remains the same.
If you double the net force on an object what is the result on the?
Newton's Second Law:F=ma (force = mass x acceleration) That means that acceleration and force are proportional. If you double the force, you get double the acceleration.
What happends to acceleration if you double the force being applied?
Then the acceleration would also double.Then the acceleration would also double.Then the acceleration would also double.Then the acceleration would also double.
What happens to acceleration when force is doubled?
F=ma, if "a" doubles and "m" is the same, the resultant "F" will double. Acceleration is doubled if force is doubled, a1=f/m; a2= 2f/m= 2a1.
How can you double the acceleration of an object if you cannot alter the object mass?
Double the force which is causing the acceleration
If you double the net force on an object what is the result of the acceleration?
If you double the net force on an object, the acceleration of the object will also double. This is in accordance with Newton's second law of motion, which states that the acceleration of an object is directly proportional to the net force acting on it.
What happens to the acceleration of an object if the force on the object increases?
its acceleration will be increased
What happens to the acceleration of an object's if the force on the object increase?
its acceleration will be increased
If you increase the force on an object what happens to the acceleration?
If you increase the force on an object acceleration increases . As F = m*a, where F = Force , m = mass of the object & a = acceleration
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
What happens if an unbalanced force applied to an object doubles?
The acceleration, from the Newton's law, can be calculated as:a0 = F0/mwhere F0 is the unbalanced force, m is the mass of the object.This is a linear equation, so if you double the force by 2, the acceleration will double as well:a1 = 2F0/m = 2(F0/m) = 2a0
How can you double the acceleration of an object if you cannot alter the object s mass?
You can double the acceleration of an object by applying twice the force on the object, following Newton's second law (F = ma). Increasing the force will result in a proportional increase in acceleration, without needing to alter the object's mass.
