When a body is moved from sea level to the top of a mountain, its weight changes but its mass remains constant. Weight is the force of gravity acting on an object, so as the body moves to higher altitudes where gravity is weaker, its weight decreases. Mass, on the other hand, is the amount of matter in an object and doesn't change with location.
The amount of material a body contains is referred to as its mass. Mass is a measure of the amount of matter in an object and is typically expressed in units such as kilograms or grams. It is a fundamental property that does not change regardless of the object's location in the universe, unlike weight, which can vary due to gravitational forces.
Well The Muscle System Accounts For Half The Body's Weight.
Apparently the bones account for about 12% of body weight in females and about 15% in males in a normal sized frame.
Find the weight of everything else on your body and subtract it from your over all body weight. There is your answer. Easier said than done ;) xx
No, weight is not a fundamental quantity. Though mass is. The reason for adopting this viewpoint is this: the mass of a body is intrinsic to the body itself - e.g. an electron has the same mass anywhere in the universe. The weight of a body is just the gravitational force acting on that body, and obviously depends on the gravitational field it finds itself in. For example, your mass remains the same if you fly to the moon, but your weight on the moon's surface is roughly one-sixth of your weight here on Earth.
Weight is a vector quantity. Weight is the mass of a body times the acceleration due to gravity, which is a vector quantity. Weight is in the downward direction.
The quantity of matter in a body is known as mass. Mass is a fundamental property of an object that measures the amount of material present in it. It is typically measured in kilograms or grams.
The quantity that characterizes the inertia of linear motion of a body is mass. Mass is a measure of the amount of matter in an object and is a fundamental property that resists changes in the object's motion.
Archimedes' principle states that an object immersed in a fluid is buoyed up by a force equal to the weight of the fluid it displaces. This principle is used to explain why objects float or sink in a fluid and is fundamental in understanding concepts related to buoyancy.
The quantity of your body fat depends on how much fat your body has in storage and weight. In order to find out how much fat your body is storing you must divide the total weight of your fat by your overall weight. This can be simplified by using a simple BMI chart which will enable you to see whether you are a healthy weight or overweight
The amount of matter in a body is typically measured by its mass, which reflects the quantity of material in the body. Mass is a fundamental property of matter and is independent of the body's location and the force of gravity acting on it. It is commonly measured in units like kilograms or grams.
When a body is moved from sea level to the top of a mountain, its weight changes but its mass remains constant. Weight is the force of gravity acting on an object, so as the body moves to higher altitudes where gravity is weaker, its weight decreases. Mass, on the other hand, is the amount of matter in an object and doesn't change with location.
It depends on your body's weight but for most people it is 2 to 3 cups daily
According to second law of Newton's motion, we can relate fundamental and derived units; i.e F=ma where, 'm' is mass of body which is fundamental quantity and its unit expressed in Kg. and 'F' is the force implied on body produced acceleration which is directly proportonal to one another, whereas; force is derived quantity and its unit expressed in Kg-m/sec/sec or N. Hence in this way we can relate these two.
Weight and mass are different. Here are some points of difference.Mass | Weight1. It is the amount of matter contained in | It is the force with which a body is attractedthe body | to the center of earth|2. It is a scalar quantity | It is a force so a vector quantity.|3. it is a constant quantity(from place to | It may vary from place to placeplace.)1 | since it depends on 'g'2 of the place|4. It is never zero for a material body | It can be zero, It is zero at the center of earth|5. It's S.I. unit is kilogram(kg) and it is a | It's S.I. unit is Newton(N) and it is not afundamental quantity | fundamental quantity1. As per theory of relativity mass doesn't remain constant always, it changes when the velocity of bodyis changed.2. 'g' is acceleration due to gravity.
Medicine is administered according to the body weight ,therefore if a large dose is required more than the body weight it is administered in same quantity and time for the medicine to take effect.