Weight(W)=mass(M)* acceleration due to gravity(g) which is =9.8ms^2
therefore,weight of 40kg is
w=40 * 9.8
w=392N
The weight of a 40kg object on Earth would be approximately 392.4 Newtons. Weight is calculated by multiplying the mass of an object by the acceleration due to gravity (9.81 m/s^2).
The work done to lift 40kg of bricks to a height of 10m can be calculated using the formula: Work = Force x Distance. The force required to lift the bricks is equal to the weight, which is mass x gravity (40kg x 9.8m/s^2). Plug these values into the formula to find the work done.
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 mass of an anchor is 40 kg. 40 g would be too light for an anchor.
If a student's mass is 40kg on earth, then his mass is 40kg wherever in the universe he goes. Mass doesn't change. What changes is the gravitational force between each mass and the other masses in the vicinity of the first one. That force is what we call "weight".
40kg of mass, 400 (approx) N of weight.
W = m * g Weight of an object equals the mass of the oject multiplied by the gravitaional constant
The weight of a 40kg object on Earth would be approximately 392.4 Newtons. Weight is calculated by multiplying the mass of an object by the acceleration due to gravity (9.81 m/s^2).
You multiply the mass by the gravity. Normal Earth gravity is about 9.8 (in meters/second2, or the equivalent newton/kilogram).
A pound (lb) is a measure of mass which is not the same as weight. An oject with a mass of 2240 pounds on earth would have a mass of 2240 pounds on the moon. But the weight of the object would be only one sixth on the moon. A mass of 2240 lb is equivalent to an Imperial ton.
40kg
40kg
He is 40kg. (88 lbs)
That's called the mass.
jaswant 40kg
Your weight on the moon would be about 1/6th of your weight on Earth. So, if you weigh 40kg on Earth, on the moon you would weigh approximately 6.67kg.
Zulfiqar weight 40Kg