Karo Syrup, water, veggie oil and honey
You do not put your lips on a flute. You put your lips above the flute, similar to when you blow on a water bottle and it makes that weird sound. Hope that helps. :)
If it is empty it should be okay, but to be on the safe side I would bring a regular bottle from the deli and leave an expensive Sigg or Nalgene bottle at home.
Yes, it should be alright to do that. Anything that you can make into a tea and drink is safe to also put in your bath water. Just be sure of your source. If you buy it as an essenial oil, you can find instructions either on the bottle or in a book, or even online. Eucalyptus is very good for respiratory ailments and so you should be able to find more information on uses of herbs, in general.
I dont know. I have one bottle left. Should I drink it?
it means her pain is going away
-- If (the mass of the whole bottle including whatever is in it) divided by (the volume of the whole bottle) is greater than the density of the fluid you put it in, then it sinks. -- If that quotient is less than the density of the fluid, then it floats.
It sinks because it has a higher density.
That depends on what fills the remainder of the bottle. If it is air, the average density of your bottle will be less than the density of the liquid.That depends on what fills the remainder of the bottle. If it is air, the average density of your bottle will be less than the density of the liquid.That depends on what fills the remainder of the bottle. If it is air, the average density of your bottle will be less than the density of the liquid.That depends on what fills the remainder of the bottle. If it is air, the average density of your bottle will be less than the density of the liquid.
If you use a homogenous (uniform) material, it doesn't. No matter what shape you put it into, the density should be the same.If you use a homogenous (uniform) material, it doesn't. No matter what shape you put it into, the density should be the same.If you use a homogenous (uniform) material, it doesn't. No matter what shape you put it into, the density should be the same.If you use a homogenous (uniform) material, it doesn't. No matter what shape you put it into, the density should be the same.
bottle of milk
A small bottle or flask used to measure the specific gravities of liquids; the bottle is weighed when it is filled with the liquid whose specific gravity is to be determined, when filled with a reference liquid, and when empty. Also known as density bottle; relative-density bottle.
Water expands when you freeze it. Therefore, the water level in a bottle should rise after you have frozen it into ice. Please see the related links for details.
Question as asked cannot be answered. We know that the bottle can contain 500 mL of ketchup, but we don't know the volume of the material from which the bottle is made, nor the correct density (the figure given as density, 1.43 g, is actually a mass). In addition even if we assume that the figure given for density is 1.43 g/mL is an actual density, from the sentence structure we have a volume for ketchup, and a density of the material in the bottle ("density" refers back to bottle, not to ketchup—"Bottle contains ... and has a density of"). If the one who posed the question meant to write, "If a bottle contains 500 ml of ketchup, and the ketchup has a density of 1.43 g/l, what is the mass of the ketchup in the bottle in grams", then the original answer to the question 715g/mL mass = density x volume is correct.
plastic water bottle density
If diet soda has a greater density than water, it's not by much. The air in the bottle should be enough to keep it afloat. If you try to float it without the bottle, it will mix with the water.
rd means "relative density".
The idea is to divide the mass by the volume. I assume the half liter is what fits inside the bottle; in theory, the actual volume of the bottle plus the contents should be slightly more. Also, in theory you'll have to add a small amount of mass for the air inside. If the bottle is filled with air, then you'll actually get the average density of the bottle plus the air.