Weight is dependent on gravity. Gravity is a variable parameter that changes relative to an object's distance from another object - thus it is not a good measurement of mass. Realistically weight isn't even a mass, it's a force, that is, it's the already factored mass of an object times the acceleration due to gravity.
Yes, the BMI scale or Body Mass Index is a tool used to measure the percentage of body fat in an individual using both height and weight. The formula uses your weight divided by the square of your height.
Weight is affected by the gravitational pull of a large body of mass while mass is affected by how many particles you have in your body. Weight is determined by the equation Fg=mg while mass is determined from a mass balance.
Weight is affected by the gravitational pull of a large body of mass while mass is affected by how many particles you have in your body. Weight is determined by the equation Fg=mg while mass is determined from a mass balance.
Body Mass Index; is a measure of body weight based on a person's weight and height. It is not a body fat percentage.
No, a body's inertia is related to its mass and movement. Weight is related to a body's mass in a gravity field without movement.
it is a average of your weight either over or under the average weight of people your height .
Gaining weight or gaining muscle. The Body mass index is mainly for caucasions with a slender frame. It does not include body shape and size.
weight and mass measures the volume
Body mass index (BMI) is a measure of body fat based on height and weight that applies to adult men and women. It is a good comparison to use to determine if a person is under-, healthy-, over-weight, or obese.
Yes, a body mass index involves your height and weight. There is an ideal body weight depending on your height, and you can measure it through a formula.
No, it is a measure of weight, there is a difference (Mass is mass, weight is the force exerted by your mass being pulled down by gravity)
Weight is the term for the mass times the acceleration. To measure that, you multiply the mass times the acceleration