when you push the plunger are the air particles closer together in the syringe or in the bubble
The speed in which an air bubble will travel upwards in water will depend on how small the bubble is and the elevation in which the bubble is being released. The smaller the bubble, the faster it will travel upwards.Ê
Aluminum foil because that is the only substance that can hold more than 200,000,000,000,000,000,000,000 space particles and an egg dropped from a certain height can absorb 5 space particles less than the Aluminum F.. In the end you get an uncracked egg.
yes
No
The Greatest Elastic Candy Rubber is Food Hubble Bubble
The mass in the syringe, as you push down the plunger.
To prevent injecting an air bubble into your blood, which can kill you.
to avoid loss of drug as , after complete injection the air bubble remain inside the needle, not the drug
An air bubble in a syringe can be injected into a vein, in which case it can cause an "embolus" or blockage. If the bubble gets stuck in the heart, it can cause a heart attack; an embolus in the brain causes a stroke. Either can kill within moments.
bubble chamber
glycerin is the main ingredient in bubble soaps and other soaps, it is what holds a bubble together. yes.
No. Make sure all the bubbles are OUT.
The answer depends on what "IT" refers to. Without further information the question cannot be answered.
bubble power
the two particles move further apart as the universe expands because I am a beaver
As bubbles are a possible occurrence for numerous matters, it is difficult to answer. Generally speaking, bubbles are composed of whatever matter created the bubble, and the air in the environment in which the bubble was released (including any particles of other matter that are present in that air).
Absolutely. The most obvious examples are vaporization of a liquid when the pressure is lowered. For example, if you release the fuel in a disposable lighter, the liquid butane becomes a gas when it reaches the lower pressure of the atmosphere. You can demonstrate this with water by putting it in a syringe, closing the end, and rapidly pulling out the plunger. The water will actually bubble and boil at room temperature.