F = ma, so if mass is constant, you need to double the force to double the acceleration. The answer is 20 N.
Force equals mass times acceleration; so acceleration equals force divided by mass. 12 newtons divided by 2 kilograms equals 6 metres per second per second. (newtons are (kilogram times metre) divided by seconds squared)
1 miles in metres 1 miles = 1609.344 metres
As it stands the question does not make much sense. If you mean in what units is acceleration measured, then the SI unit is metres per second per second (m/s2). If you are measuring acceleration, then you can either determine the object's mass if you know the force applied, or alternatively determine the resultant force applied if you know its mass, using the equation F=ma
1 square centimeter is 100 square millimeters.
the answer is 11cm. 3 squared is 9 9+2=11
It doesn't. Close to Earth's surface, any object will accelerate towards the center of the Earth at a rate of about 9.8 meters/second squared, regardless of the object's mass.
gravity
acceleration...
The acceleration due to gravity alone on Earth is about 9.81 meters per second-squared.
It is approx 9.81 metres per second-squared.
One newton.
9.8 meters per second squared.
The question does not make sense. 10 Newtons is a force of 10 Newtons, sufficient to accelerate a mass of 10 kilograms by 1 meter per second squared. The concept of "safe" as applied to a force has no meaning in the context of this question. Please restate the question.
5 miles per second squared = 8.047 km per second squared (approx) = 8,047 ms2 So a mass of 50 kg, accelerated at 8,047 ms-2 = 402,336 Newtons.
60.912 meters in that time
Newton's Second Law of Motion states that Force equals the product of mass and acceleration. Thus, the force required to accelerate a 200 kg object 15 meters per second squared equals 200*15. This is equivalent to 300 Newtons.
F = ma 12000kg X 4 m/s squared 48000 Newtons.