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.
"10 newtons" is a force, equal to about 21/4 pounds.
A distance of 500 newtons? Newtons is a unit of force, not of distance.
Since it is in one dimension, you add as you add real numbers, either 10 + (-20) (if you call east positive), or -10 + 20 (if you call west positive).
Buoyancy = weight of displaced fluid. 10 newtons = 9.8 kilograms with 1G of force applied in a vacuum.
98 Newtons.
A force of 9.8 N is the force exerted on a 1 kilogram mass at rest by the force of Earth's gravity at sea level. So 10 N is the force of about a 1.02 kg mass (approximately 2.25 pounds force)This is a scalar measurement.
Movment. Ex.> force of 10 newtons-><-force of 5 newtons movement of 5 newtons->
10 newtons
10 newtons
"10 newtons" is a force, equal to about 21/4 pounds.
A distance of 500 newtons? Newtons is a unit of force, not of distance.
750 gms = 0.750 kgs = mass 10 = g newtons = force = m*g = 0.750*10 = 7.50 newtons
The most force you get is 6+4=10 Newtons.
Since it is in one dimension, you add as you add real numbers, either 10 + (-20) (if you call east positive), or -10 + 20 (if you call west positive).
Effort force:Load force. For example, if you put in 10 newtons of force and the load force was exerting 5 newtons the velocity ratio would be 2:1
The gravitational constant on Earth is 10 Newtons per kg (well exactly about 9.81 Newtons)
Buoyancy = weight of displaced fluid. 10 newtons = 9.8 kilograms with 1G of force applied in a vacuum.