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Pressure varies with height as a function of specific weight.
p=p0+specific weight*height
Where height is the distance below the reference pressure p0 (usually at a free surface).
Cheyanne Tremblay
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What is the relationship between weight and pressure?
Pressure varies with height as a function of specific weight. p=p0+specific weight*height Where height is the distance below the reference pressure p0 (usually at a free surface).
What is the relationship between density and specific gravity?
There is a very great relationship between density and specific gravity. Density contributes to the weight of a substance under specific gravity.
Archimedes principle helps to explain the relationship between what?
Archimedes principle helps explain the relationship between weight and volume. The term is specific gravity.
What is the relationship between ocean depth and pressure?
The pressure (force per cm2) at a particular depth is the weight of water above that square centimetre.
Describe the relationship between mass and weight?
Describe the relationship between mass and weight.
What do you mean of pressure and weight relationship?
Pressure is force per unit area.
Who first stated the relationship between buoyant force and weight?
The relationship between buoyant force and weight was first stated by Archimedes.
What are 6 different properties of fluids?
Density, Viscosjty, pressure, specific weight, specific gravity, specific volume
Is there relationship between lift and weight?
yes there is
What is the relationship between mass weight gravity?
weight = mass x gravity
Does specific gravity has units?
- The specific weight is the weight of a known volume of material at a given temperature and pressure; the unit of measure is kN/m3. - But if you think to relative density: Relative density (specific gravity) is the ratio between the density of the material to be tested and the density of water, at a given temperature and pressure; consequently no unit of measure for this ratio.
What is the relationship between weight and location on the earth's surface?
no
