36 meters is not a "rate".
If you have an acceleration (in meters per second square), use Newton's Second Law:
Net force = mass x acceleration.
36 meters is not a "rate".
If you have an acceleration (in meters per second square), use Newton's Second Law:
Net force = mass x acceleration.
36 meters is not a "rate".
If you have an acceleration (in meters per second square), use Newton's Second Law:
Net force = mass x acceleration.
36 meters is not a "rate".
If you have an acceleration (in meters per second square), use Newton's Second Law:
Net force = mass x acceleration.
Force is equivalent to mass time acceleration, so
18 kg x 36 m/s^2 = 648 Newtons
Force = mass * acceleration
F = 18*36
F = 648N
F = M A
Required force = (18) x (rate of acceleration)
F = m A = (18) (36) = 648 newtons
36 meters is not a "rate".
If you have an acceleration (in meters per second square), use Newton's Second Law:
Net force = mass x acceleration.
Use the formula force = mass x acceleration. By the way, the acceleration should be in meters/second2, not in meters/second or meters x second.
648 Newtons
F = M A = (18) x (36) = 648 newtons
Without a unit, "36" is not an acceleration. we'll assume you're talking aboutunits of "meters per second2".F = M A = (18) x (36) = 648 newtons = about 146 pounds (rounded)
A body will move in circular motion if there is a force to accelerate it towards the center.
90 n is needed to accelerate your body at a rate of 2 if you weigh 45 kg.
Force = mass x acceleration. I'll let you do the math.
C. 648 n
648 N
answer is (D) 120N
F = M A = (18) x (36) = 648 newtons
Since you don't tell us anything about friction or any other forces in the body's environment, we have to assume that there aren't any, and answer the question for that case. Any force, no matter how small, will accelerate any body, no matter how big. The greater the force is, the greater the acceleration will be. To find out exactly what the acceleration is, simply divide the force by the mass.
2n
F = m A = (18) (36) = 648 newtons
If it is placed at a point where the force of gravity is such that it would accelerate the body at 1 ms-2.
Whenever there is a resultant force acting on a body which is having some mass, then that body will accelerate (or) A body whose velocity is changing with respect to time and having some mass then the body will accelerate.
Acceleration is in the same direction as the applied force.
Without a unit, "36" is not an acceleration. we'll assume you're talking aboutunits of "meters per second2".F = M A = (18) x (36) = 648 newtons = about 146 pounds (rounded)
A unbalanced force causes a body to accelerate. (From Newton's second law)