Height refers to the measurement from the bottom to the top of an object, typically a person. Mass, on the other hand, is the amount of matter in an object. Height is a measurement of vertical distance, while mass is a measure of the amount of material in an object.
Mass and height are generally not directly related. Height is a measure of how tall someone is, while mass is a measure of the amount of matter in an object. While a person's height can affect their weight (mass), there is no strict correlation between height and mass for all individuals.
Yes, two objects of the same mass dropped at different heights will have different speeds when they hit the ground due to the influence of gravity. The object dropped from a higher height will have a higher speed upon impact because it had more time to accelerate while falling.
Gravitational potential energy is equal to mass x gravity x height. Changing either the mass or the height will work.Gravitational potential energy is equal to mass x gravity x height. Changing either the mass or the height will work.Gravitational potential energy is equal to mass x gravity x height. Changing either the mass or the height will work.Gravitational potential energy is equal to mass x gravity x height. Changing either the mass or the height will work.
In general, as objects get larger, mass increases faster than height, because height is a linear, or one dimensional measurement, whereas mass is related to volume, and volume would as a general rule be proportional to the cube of the height. I will add that your question is rather vague. A person who is getting fat, for example, could double in mass without any change in height. An empty box could have something put inside it that would cause it to double in mass without any increase in height. There are many different possible situations involving increased mass, which would have a variety of effects on height.
You can calculate the volume by multiplying height, width, and mass. Then, divide the mass by the density to find the volume. Finally, calculate the length by dividing the volume by the height and width.
No, dropping two objects of different mass from the same height doesn't contradict Newton's 2nd Law. The law states that the acceleration of an object is directly proportional to the net force acting on it and inversely proportional to its mass, so objects of different mass will experience different accelerations due to gravity even when dropped from the same height.
"Does The Height of an Object Affect its mass?"*short answer - no. longer answer - mass is constant for a given object... WEIGHT is what changes at different heights above earth.*learn to spell, noob!
GPE = Mass * Height so Mass = GPE/Height
Mass and height are generally not directly related. Height is a measure of how tall someone is, while mass is a measure of the amount of matter in an object. While a person's height can affect their weight (mass), there is no strict correlation between height and mass for all individuals.
"height" is a measurement of elevation. "mass" is a fundamental property of matter.
This is completely unrelated to the height. An object at that mass, and speed, can be at any height.This is completely unrelated to the height. An object at that mass, and speed, can be at any height.This is completely unrelated to the height. An object at that mass, and speed, can be at any height.This is completely unrelated to the height. An object at that mass, and speed, can be at any height.
BMI = Mass : (Height)2 where mass is in kilograms and height is in metres.
Yes, two objects of the same mass dropped at different heights will have different speeds when they hit the ground due to the influence of gravity. The object dropped from a higher height will have a higher speed upon impact because it had more time to accelerate while falling.
The answer depends on the tree and what aspect of it you want to measure. There will obviously be different units for its mass and height. Even in linear measurements, you may wish to use different units for its height and girth.
Meters for height Kilograms for mass.
Volume= Length x Height x thickness = Mass ---------- Density So, Thickness = Mass ---------------------------------- Density x Length x Height
No, mass is the amount of "stuff" in an object.