The absence of bubbles on the stainless steel screw in the sugar solution can be attributed to the lack of a significant reaction between the metal and the solution. Stainless steel is generally resistant to corrosion and does not readily release gases in a sugar solution. Additionally, the sugar may create a viscous environment that inhibits the formation or movement of bubbles. Lastly, if the solution is saturated with sugar, it may not support gas solubility, further reducing the likelihood of bubble formation.
my guess is u can, i drank infinite bubbles, had a burning feeling at the back of my throat, and burped several times, after that, no burning. my friend said to do it like this with gazillion bubbles, take a sip, burp, and they come out of your mouth. but she licked them from the wand, probably because she wanted to stop me asking her to do it, and she felt a burp coming on. but she said u also have to digest them. weird, huh?
One of the products of Photosynthesis is oxygen (Carbon Dioxide and Water give Glucose and Oxygen) and the bubbles you see coming from pond weed are actually the oxygen being produced from Photosynthesis. So therefore, the more/faster the bubbles, the quicker Photosynthesis is happening.
The neutrino. Actually it is not ONE particle, but several similar particles.
Change in size, shape, or state of matter Reversibility - the change can be undone No new substance is formed Change in appearance, but not in chemical composition Change does not alter the chemical properties of the substance
Yes, air bubbles can rise to the surface of sandy clay when you pour water. This is due to the presence of air trapped within the pores of the clay matrix, which gets displaced by water as it infiltrates the soil. The bubbles coming out are a result of this air being released from the soil pores.
Champagne is a solution. When bubbles come off, they are carbon dioxide gas coming out of solution, so the bubbling champagne is a solution with bubbles of gas in it. The champagne is still a solution, but the bubbles are not part of it any more.
If you're heating it strongly enough to boil, then because it's boiling. If not, the bubbles are probably dissolved air coming out of solution. The solubility of gases in liquids goes down as the liquids are heated.
MY DAD HAS HAD ALOT OF FISH AND I HAVE SEEN BUBBLES COMING OUT OF THEIR GILLS BEFORE, IT USUALLY MEANS THAT THEY HAVE ALOT OF AIR COMING INTO THEIR LUNGS SO IT MAKE BUBBLES WHEN THEY BREATHE OUT.
the eggs are probably rotten.
Bends, also known as decompression sickness, occur when divers ascend too quickly, causing nitrogen bubbles to form in their bloodstream and tissues. This happens because the pressure decreases as they rise to the surface, which can lead to the nitrogen coming out of solution and forming bubbles. These bubbles can cause a range of symptoms, from joint pain to neurological issues, depending on where they occur in the body.
When zinc nitrate solution is added to lead nitrate solution you willÊapparently observe a black solid being formed. All of the research yielded facts from adding solid metal to either zinc or lead.
1. observe the problem environment. 2. analysis and defining the problem. 3. developing a models. 4. collection data required by the models. 5. coming up with a solution . 6. qualifying the models and solution. 7. implement the solution.
If you have bubbles coming out of your kitchen faucet, you have a venting problem. It has nothing to do with soap in your faucet.
If you mean for a math problem, after coming up with a solution you should usually check the solution in the original equation, to be safe.
When you first start to boil water, the bubbles that you see are basically air bubbles. Technically, these are bubbles formed from the dissolved gases that come out of the solution, so if the water is in a different atmosphere, the bubbles would consist of those gases. Under normal conditions, the first bubbles are mostly nitrogen with oxygen and a bit of argon and carbon dioxide. As you continue heating the water, the molecules gain enough energy to transition from the liquid phase to the gaseous phase. These bubbles are water vapor. When you see water at a "rolling boil," the bubbles are entirely water vapor. Water vapor bubbles start to form on nucleation sites, which are often tiny air bubbles, so as water starts to boil, the bubbles consist of a mixture of air and water vapor.
There could be several reasons why bubbles are not coming out of your filter, such as a clogged air line, a leak in the tubing, or a malfunctioning air pump. Check these components to identify and resolve the issue.
The short answer is due to imperfections on the surface of the glass "seeding" bubbles out of the water. What is meant by "seeding" this means is that when a gas is dissolved in a solution (like the small amount of air in tap water), it remains within the solution in microscopic bubbles. If there is an area where these microscopic bubbles can gather, they will do so to create a larger bubble (due to the hydrophobic effect). Areas that promote these microscopic bubbles to gather are called "seeds". Eventually the bubble will be too large to simply stay in solution and begin to rise to the surface, often as a visible tiny bubble. This is the same reason why after pouring yourself a glass of your favorite carbonated beverage, you may see small bubbling trails seemingly coming from the side of the glass out of nowhere. The "source" or origin of the bubbling is likely a small imperfection of the glass seeding bubbles. The bubbles clinging to the surface of the glass is the same thing, but on a smaller scale since there is less gas dissolved in tap water, than in a carbonated beverage.