It condenses into a liquid. Inside you should see a hole.
There are three metals that have this specific heat cast iron, chromium and iron. You have to check the physical characteristics of the metal you used in your lab to determine which out of the three is the correct one.
You need to replace the aluminum anode with a zinc/aluminum alloy anode.ANS 2 - If a hydrogen sulfide (or rotten egg) odour exists around your water, it's often an indicator of excess iron in the water supply. This can be bad for your plumbing. I would advise taking a water sample(in a sterilised bottle) to a lab and have it analysed. If the iron content is very high you may well have to fit a softener or an iron filter.BTW - changing the anode is an excellent idea anyway. Just may not be the solution.
A lavender-top tube is typically used for iron panel tests.
Don't cheat on your lab experiments by looking up the answers!
That usually means a high concentration of iron. Get a lab analysis and be prepared to fit filters.That usually means a high concentration of iron. Get a lab analysis and be prepared to fit filters.
PLANKTON'S LAB
The iron ring in a lab is used to hold things and the middle of the ring allows a Bunsen burner to heat what is on the ring.
A laboratory stand.
It depends on whether you are male or female and also varies by the "normal" range for the lab where blood is drawn. If you have a lab report it should show both what your level is and what the "normal range" for that lab is for your gender.
The question is irrelevant. The use of water predates the existence of labs.
In the Doppler effect lab, we demonstrated that the perceived pitch of a sound changes depending on the motion of the source and observer. As the source moves towards the observer, the pitch increases, while as the source moves away, the pitch decreases. This change in pitch is due to the compression or expansion of the sound waves as they travel through the medium.
In the Doppler effect lab, we demonstrated that the speed of a sound source affects the pitch perceived by an observer. As the source moves towards the observer, the frequency (pitch) increases, and as the source moves away, the frequency decreases. This change in frequency is due to the compression and rarefaction of sound waves as the source moves relative to the observer.