Use the following equation.
F = m * a = 1000 * 60 = 60,000 N
Meters per second squared, Kilometers per hour, Meters, and Miles per hour.
Use the formula potential energy = mgh (mass x gravity x height), mass in kilograms, gravity about 9.8 (meters per square second), height in meters. Answer will be in Joules.
F = ma(Force = Mass * Acceleration)F = (3) * (5)F = 15 N(15 Newtons)
Force = Mass* Acceleration = 66 Kg * 2 m/second = 132 Kg meters per second per second = 132 Newtons.
In SI units: Force in N (Newton = kg ms/s2); Acceleration in m/s2Other systems of measurement:In cgs units: Force in dyn (Dyne = g cm/s2); Acceleration in cm/s2Also force is stated in kp (kilopond or kilogram-force) - the force exerted by earth's gravity on 1 kg.In Imperial units: Force in lbf (pound-force) - the force exerted on earth's gravity on 1 lb.and in pdl (poundal = lb ft/s2); Acceleration in ft/s2
If it is a solid cube, then it 125 meters squared. If it just the floor, its 25.
By Newton's Second Law: F = ma, and since both mass (10kg) and acceleration (5 m/s2) is provided. The magnitude of the force needed is simply 10 x 5 = 50 kgm/s2 or 50 newtons.
F = m a = (976) (2.5) = 2,440 newtons
66.8
Meters per second squared, Kilometers per hour, Meters, and Miles per hour.
nn
Use the formula potential energy = mgh (mass x gravity x height), mass in kilograms, gravity about 9.8 (meters per square second), height in meters. Answer will be in Joules.
17 (16.65) square meters are needed, at minimum.
m/s(squared)
Force = mass * acceleration Force = (3000 kg)*(2 m/s^2) = 6000 Newtons ---------------------- ( that is 6000 times the force needed to push in a doorbell, on average )
Force = mass * acceleration and acceleration is in units of meters per second squared. I will assume you mean this. m/s2 Force = (1800 kg)(4 m/s2) = 7200 Newtons ----------------------
One cannot calculate the BMI with weight alone as the height is also needed. To calculate the BMI that way you take your weight in kilograms and divide it by the square of your height in meters.