Weight = (mass) x (gravity)
Mass = (weight) / (gravity) = (39.2 N) / (9.8 m/sec2) = 4 kilograms
392 56 x 7 = 392
To find 0.7 of 392, you multiply 392 by 0.7. This calculation gives you 274.4. Therefore, 0.7 of 392 is 274.4.
√392 ~= 19.799
Yes. 19.7989 is the square root of 392. But 392 is not a perfect square.
The LCM is 392.
The weight of an object is the force exerted on it due to gravity. On Earth, the weight of an object can be calculated by multiplying its mass by the acceleration due to gravity (9.8 m/s^2). Therefore, an object with a mass of 40 kg would weigh approximately 392 N on Earth.
What planet are you on? I don't mean to be a wise-ass, but weight depends upon the acceleration of gravity, which is different on different planets, whereas mass is the same no matter where you are. On the surface of the Earth, the acceleration due to gravity is 9.8 m/s2, so a 40-kg mass will weigh 40 x 9.8 = 392 newtons.
-- If the 40 kilogram mass is on the Earth, you need about 392 newtons (88.2 pounds).-- If the same mass is on the moon, you need about 64.9 newtons (14.6 pounds).-- If it's inside a space ship with you and your ship is coasting, then you canlift it with ANY force, no matter how large or small. In fact, after you lift it, you'llneed to apply force in the opposite direction in order to make it stop lifting.
The Last Town on Earth has 392 pages.
The 40kg student's force (weight) on Earth is about 392.28 newtons. (Force = mass x acceleration). Earth's acceleration is 9.807 meters per second squared.
The 40kg student's force (weight) on Earth is about 392.28 newtons. (Force = mass x acceleration). Earth's acceleration is 9.807 meters per second squared.
The sun of course, the sun's diameter is about 1, 392, 000 km and Earth's diameter is about 12, 756km
There are six factor pairs: 392 = 1 x 392 392 = 2 x 196 392 = 4 x 98 392 = 7 x 56 392 = 8 x 49 392 = 14 x 28
392 56 x 7 = 392
To find 0.7 of 392, you multiply 392 by 0.7. This calculation gives you 274.4. Therefore, 0.7 of 392 is 274.4.
No. Pluto has less mass and it is further away, so the force is a lot less. Pluto's mass is only about 0.0022 times the Earth's mass and Pluto is (on average) about 39 times further away from the Sun than Earth. So, according to Newton's law of gravity, the gravitational force attracting Pluto compared with Earth is only about 0.0022/392. That's only about 1.4 x 10-6 times the force felt by the Earth. The force on the Earth is 3.542 x 1022 Newtons, ±3.4% due to the elliptical orbit. The force on Pluto is 5.001 x 1016 Newtons, ±50%.
√392 = ~19.8