mass(kg) = force(n)/acceleration(m/s^2), mass =1000/9.81 mass = 101.94 kg
62
1.0kN = 102kgf
The mass of the ball is 5 kg. 20 N/ 4.0 M s3 = 5 KG.
22.88 (N/kg)
80 kg
Force = mass x accelerationf=masince on earth a=g =9.81 m/s²thereforef= 784 N = m x 9.81m = 784/9.81 = 79.918 kg
On earth it is 784 newtons or 176 lbs.
588.4 N
35kg is 343.2N
1 MPa = 1000000 N/m2 and 1 N = 1 kg*m/s2
To solve this, divide 112 into 784. n = 7
12 kg dog on Earth: 117.6 N 12 kg dog on Mars: 44.52 N (~72% less)
1×784 2×392 4×196 7×112 8×98 14×56 16×49 28×28
The mass' approximate potential energy at four meters is 784 joules.
98.1 N at the earth's surface.
Short answer 1.3 x 102 N (on moon) 7.5 x 102 N (on Earth if g = 9.80 N/kg Long Answer Since the category is "The Moon" gravity will be assumed to be 1.63 m/s2 (N/kg = m/s2) http://en.wikipedia.org/wiki/Gravitation_of_the_Moon W = mg W = (77 kg)(1.63 N/kg) = 125.51 -> 1.3 x 102 N (significant figures) for earth, just substitute in 9.80 N/kg for 1.63 N/kg W = (77 kg)(9.80 N/kg) = 7.5 x 102 N