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pressure of liquid on bottom=density*gravitational force*depth :)
The denser it is, the lower in the column it will settle.
Density of any liquid can be determined by weighing exact volume of liquid and dividing weight observed by the volume of liquid taken.
The difference between the weights (grams) of the empty cylinder, and with the liquid gives you the weight of the liquid. Divide that by 30 to get the density of the liquid in g/ml
This is the determination of the specific density (the ratio liquid density/water density).
pressure of liquid on bottom=density*gravitational force*depth :)
An object will float if it has less density than the liquid in which it is placed.
buoyant force = density of the liquid*Volume*gravity. so the buoyant force is directly proportional to the density of a liquid.
The mass of a liquid (or anything else) divided by the volume is defined to be its density.
A less dense object or any other substance will float on a more dense liquid.
A less dense object or any other substance will float on a more dense liquid.
A liquid's buoyancy is determined by its specific gravity (density).
The denser it is, the lower in the column it will settle.
Buoyant force is directly proportional to the density of the liquid. as the density of the liquid increases, the Buoyant force increases.
For two liquids of the same volume, the liquid with a higher density will have greater mass. Similarly, the liquid with a greater mass has a higher density. This is only true for samples of equal volume, however.
the pressure of liquid is HDG where H=depth D=density g= acceleration due to gravity thus depth= pressure/density*acceleration due to gravity
If you were submerged in a liquid more dense than water, the pressure would be correspondingly greater. The pressure due to a liquid is precisely equal to the product of weight density and depth. liquid pressure = weight density x depth. also the pressure a liquid exerts against the sides and bottom of a container depends on the density and the depth of the liquid.