yes
Since the difference in volume corresponds to the volume of the stopper, the volume of the stopper=30.9-25=5.9ml Thus density of the rubber stopper=mass/vol=(8.46/5.9)g/ml
i don't know... That's why I'm asking you. soo.. Does a rubber stopper float in water?
It would go in order of lowest density starting at the top, all the way to the highest density at the bottom.
Being heavier (denser) than water, it would sink.Being heavier (denser) than water, it would sink.Being heavier (denser) than water, it would sink.Being heavier (denser) than water, it would sink.
Water is not denser than any other liquid. Mercury, a liquid at room temperature, has a density of 13.534g/cm3.
Since the difference in volume corresponds to the volume of the stopper, the volume of the stopper=30.9-25=5.9ml Thus density of the rubber stopper=mass/vol=(8.46/5.9)g/ml
i don't know... That's why I'm asking you. soo.. Does a rubber stopper float in water?
Mercury Iron Carbon tetrachloride Rubber stopper Water Cork Oil Air You might want to think of something better than a rubber stopper; they tend to gum up and dissolve into the carbon tet layer after a while.
The density of water is 1000 gr cm-3 and the density of the Earth is about 5400 gr cm-3. So it's denser.
no, the density of water never changes
The density is the same.
No, salt water is denser.
It would go in order of lowest density starting at the top, all the way to the highest density at the bottom.
The density of water is 1000 gr cm-3 and the density of the Earth is about 5400 gr cm-3. So it's denser.
Yes. The density of rubber is 1522 kg per cubic metre, which is greater than that of water (1000 kg per cubic metre)
Being heavier (denser) than water, it would sink.Being heavier (denser) than water, it would sink.Being heavier (denser) than water, it would sink.Being heavier (denser) than water, it would sink.
Oil has a density of about 0.8 - 0.9. Mouthwash (which is naminly water) has a density of about 1. So no, mouthwash is denser.