Force (F) = mass (m) x acceleration (a) [ F = m x a ], therefore acceleration = Force / mass, so a = F / m = 10.0N / 1.25kg, so acceleration is 8m/sec2 [To be totally "correct" as far as physics is concerned, there are direction vectors associated with both Force and acceleration. We need to know which way the Force is applied so we can determine the direction of the acceleration. This is important if the object is moving. If we apply a force in the direction of motion, the object speeds up, but in the opposite direction, the object slows down. You can see the importance in that, but we can ignore vectors for many problems in mechanics. Just don't forget that the "directionality" of Force and acceleration exists. Sooner or later you'll need it.]
Force = Mass X Acceleration, so 10 = 1 X A, so the acceleration is 10
The acceleration would be 10 m/s2
A=1.0 n divided by 2.0 kg = 0.5 n over kg = 0.5 m/s square I had the same question.
F= ma so 10 = 25a and a = 0.4 m per s per s.
Acceleration is 2m/s^2
5 meters per second squared.
10N/2.5kg=4m/s^2
7.77 newtons would be required.
1 m/s2
0.4 ms^-2
total mass = force / acceleration = 99 / 1.5 = 66 kilograms>66 - 10 = 56 kilograms
Newton's first law: Force = Mass * Acceleration Rearrange: Acceleration = Mass/Force And now to add numbers: Acceleration = 2 Kg/40N Cancels down to 1/20 Which gives: 0.05 m/s^2
The formula F = Ma can be used and turned round to a = F/M so the acceleration is 500/50. Because the questioner has used dynamical units there are no conversion constants needed, so the acceleration is 10 metres/second per second.
For an object experiencing a constant net force, Newton's Second Law of Motion can be used to obtain the equationF = ma,where F is the net force, m is the mass of the object and a is the acceleration of the object due to the net force, F. Rearranging the equation for acceleration and substituting in the mass of the box and the net force acting on it givesa = 900N/300kga = 3ms-2.
Sg x H x G where Sg is specific gravity of the material in grams per CC where H is height of the object physically in meters and G is gravity which is 10 as prescribed by Newton or more accurately 9.869604401 which is pye squared. This is the formula for measuring on static objects. And the answer is in Kg over a square meter of area
Force = (Mass) x (Acceleration)Acceleration = (Force) / (mass) = 10/20 = 1/2 meter per second2The length of time doesn't matter. The acceleration is constant as long as the force continues.
F = M A A = F / M = (5) / (10) = 1/2 meter per second2
Force = Mass x Acceleration Force = 5 x 2 Force = 10N (Newtons)
F = ma. Thus, acceleration is the force divided by the mass. Here, 10/2 = 5ms-2.
Force=mass*acceleration 80N=10kg*acceleration 80N/10kg=acceleration 8m/s2=acceleration The acceleration is 8m/s2.
You have given force in Newton's, so we can use this formula. Force = mass * acceleration mass of electron is conveniently in kilograms and is...... 9.109 X 10^-31 kilograms F =ma a = F/m a = 6.0 X 10^-8 N/9.109 X 10^-31 kg = 6.6 X 10^22 m/s^2
total mass = force / acceleration = 99 / 1.5 = 66 kilograms>66 - 10 = 56 kilograms
A 20-newton force would cause acceleration at 6 m/sec The acceleration is given by the formula F=ma (Force = mass x acceleration) so for the same mass, doubling the force doubles the acceleration for the same mass.
10 kg
The force required is 50 newtons or 5.1kgf.
The resulting acceleration is 2 meters per second squared. Acceleration = F/m
Force = mass * acceleration ( acceleration's unit is m/s2 ) Force = (10 kg)(4 m/s2) = 40 Newtons ==========