Weight can be calculated using the formula W=mg, where m is mass and g is gravity. Your weight on Moon is 16.5% of what you experience on Earth.
Relative to what? On the Earth - 1kg.
It's not. The law of gravity operates on the moon precisely as it does on Earth, according to the exact same mathematical formula. The mathematical formula says that the gravitational force of attraction between two objects is proportional to the product of their masses, and inversely proportional to the square of the distance between their centers, where the proportionality constant is the Newtonian 'G'. This formula accurately predicts the weight of an object on Earth, and also predicts its weight on the moon with equal accuracy. Because of the significant difference between the masses of the Earth and moon, and between their radii, an object on the moon's surface weighs only about 16.5% of what the same object weighs on the Earth's surface.
your weight is one sixth on the moon than how your weight is on earth
Gravity is different on the earth than it is on the moon. An object will weigh more on Earth since there is more gravitational pull on the object. However, mass isn't dependent on gravity, and in physics, the formula for Weight is W = ma. This means weight is dependent on the acceleration that an object has in a downward direction, and in this case, we would be focusing on gravitational acceleration that is applied to the object.
Weight can be calculated using the formula W=mg, where m is mass and g is gravity. Your weight on Moon is 16.5% of what you experience on Earth.
The force of gravity on the moon is approximately one sixth that of the earth. The direct variation formula for weight on the earth compared to weight on the moon would be weight on earth divided by 6 is equals to weight on the moon.
Weight = (mass)(acceleration due to gravity). On Earth, the acceleration due to gravity is 9.82 m/s2.
The formula that relates weight and mass is: weight = mass x gravity Near Earth, the strength of the gravitational field - the value to be used for "gravity" in the formula - is approximately 9.8 newton/kilogram.
Mass = weight /gravity Density = Mass / Volume So, if you know the density and the volume, you can calculate the mass. Also, you can measure the mass by measuring the weight. On earth, mass and weight are equal.
Weight is given by the formula, W=mg W is the weight of the object in newtons m is the mass of the object in kilograms
Use the formula: weight = mass x gravity Close to Earth's surface, gravity is approximately 9.8 newton/kilogram.
weight is m*g, mass times the gravity acceleration constant for the spoken plant. Here on earth, g is about 10, which means, if you are given a weight, you need to divide it by 10, and you will get the mass. (Assuming we are on planet earth that is.)
Calculate the empirical formula weight. Find the ratio of the molecular weight to the empirical formula weight. (n= molecular weight/ empirical formular weight). Multiply each subscript of the empirical formula by n.
there is no formula discovered especially for the weight of flat
The formula to find weight is: W = mg, where, m=mass, g=acc due to gravity=9.81 m/sec2 but according to the law of gravitation mass of the earth is given by m = g.R2 / G, where, R=radius of earth=6x106 m
To find the weight of an object, use the formula F = M * AWhere F is the weight,M is the mass of the ballerina, andA is the acceleration due to gravity (9.81 if the ballerina is on Earth).The weight won't change if the Ballerina is on his or her toes or not.