Learning the Elements one step at a time

The Elements I’m starting out with are common ones, that you may see on tests. This could vary, given all chemistry professors are different. 

Na – Sodium

Ag – Silver

Au – Gold

K – Potassium 

Cl – Chlorine

Mg – Magnesium

Ba – Barium

F – Fluorine

Fe – Iron

Xe – Xenon

Sn – Tin

Cu – Copper

H – Hydrogen

He – Helium

Ar – Argon

Co – Cobalt

C – Carbon

Fr – Francium

I – Iodine

Kr – Krypton

Pb – Lead

Li – Lithium

Ne – Neon

Ni – Nickel

Zn – Zinc

Al – Aluminum

I underlined the ones that you see mostly in the medical field give or take. 

The above elements are the ones I suggest learning first, as I find them easily remembered. It’s optional, really; you can learn whatever elements you choose first. I don’t advise trying to learn all of them at once, because cramming is NEVER good. I don’t recommend procrastinating either. You have to get yourself motivated and learn them. You’ll feel better if you do — and you will — especially if you have a chemistry class ahead in the foreseeable future. 

Correlations: (Xenon)

Notes on Xenon.

By: Billy Cahill for Cemistry 151 / Chemistry health.chemcopy1

Written notes above.

Text notes:

Abstract

Xenon is a medical gas capable of establishing neuroprotection, inducing anesthesia as well as serving in modern laser technology and nuclear medicine as a contrast agent. In spite of its high cost, its lack of side effects, safe cardiovascular and organoprotective profile and effective neuroprotective role after hypoxic-ischemic injury (HI) favor its applications in clinics. Xenon performs its anesthetic and neuroprotective functions through binding to glycine site of glutamatergic N-methyl-D-aspartate (NMDA) receptor competitively and blocking it. This blockage inhibits the overstimulation of NMDA receptors, thus preventing their following downstream calcium accumulating cascades. Xenon is also used in combination therapies together with hypothermia or sevoflurane. The neuroprotective effects of xenon and hypothermia cooperate synergistically whether they are applied synchronously or asynchronously. Distinguishing properties of Xenon promise for innovations in medical gas field once further studies are fulfilled and Xenon’s high cost is overcome.

Taken from BioMed Central, Medical Gas Research / Xe

Correlations: (Barium, Potassium, Lithium, Iodine, Oxygen)

 

My notes on correlating chemistry with the medical field, are notes on how we will see chemistry within the medical setting. It’s not like nurses are chemists, however, as a nurse you will see chemical names and formulas.

Let’s start with BARIUM (Ba):

Polyatomic Ion

barium sulfate 1

Lewis structure

barium sulfate 2

Barium Sulfate is a polyatomic ion, and you will learn about these in your chemistry health course. 

 

barium sulfate 4

Barium Sulfate is used frequently as a radiocontrast agent for X – ray imaging. It can also be used for other diagnostic procedures. It is used mainly for imaging of the GI tract during what is colloquially known as a “barium meal”. It can be taken orally, or by enema, as a suspension of fine particles in a thick milk like solution (usually has sweetened flavors added).

Wiki:

Barium Sulfate

barium sulfate 3

Next, we’ll go to POTASSIUM (K):

Potassium Permanganate

Polyatomic ion

potassium 1

Lewis structure

potassium 2

Wiki:

Potassium Permanganate

Potassium Permanganate is used as an antiseptic.

 

Miscellaneous info on potassium:

Taken from MedicineNet.com

Potassium: The major positive ion (cation) found inside cells. The chemical notation for potassium is K+. The proper level of potassium is essential for normal cell function. An abnormal increase in potassium (hyperkalemia) or decrease in potassium (hypokalemia) can profoundly affect the nervous system and heart, and when extreme, can be fatal. The normal blood potassium level is 3.5’5.0 milliEquivalents/liter (mEq/L), or 3.5 international units.

 

Lithium (Li):

Lithium carbonate is used to treat Bipolar Disorder amongst other mental ailments.

Polyatomic Ion

lica

Lewis structure

lica

li150

li300

li600

Iodine (I):

Iodine

iodine

Iodine reduces thyroid hormone and can kill fungus, bacteria, and other microorganisms such as amoebas. A specific kind of iodine called potassium iodide is also used to treat (but not prevent) the effects of a radioactive accident.

Oxygen (O):

Medical oxygen is used to: … restore tissue oxygentension by improving oxygen availability in a wide range of conditions such as COPD, cyanosis, shock, severe hemorrhage, carbon monoxide poisoning, major trauma, cardiac/respiratory arrest. aid resuscitation. provide life support for artificially ventilated patients.

oxytank

 

The notes and information gathered above is NOT all the uses of these elements and compounds. It’s just a highlight of how chemistry relates to nursing. There are many more ways these elements and compounds can be used within the medical field. 

Preparing for chemistry course(s) to become a Registered Nurse

  I have decided to blog my academic quest through chemistry. I know many students have a hard time with this particular subject, and more than likely, you’ll have a chemistry course or two! In my nursing program, I have a course called Chemistry 151 (Chemistry Health). It is a chemistry course for those who are going into the medical field. However, each program is different, and the name varies, but the concepts and majority of what you will learn in your chemistry course will be what I’m noting within this blog.  Different name, but really — there’s much of the material the same.

   To prepare yourself for chemistry, you must study at least 2 – 3 hours daily! I suggest getting it down before the actual course starts. This way, you’ll feel more confident in succeeding within your course. STUDY, STUDY, STUDY! I cannot stress that enough! If you’re like me, and never had a chemistry course in your life — you’ll want to grasp as much as you possibly can! Even if you’ve had a chemistry course, maybe in high school, you still want to study and prep yourself! 

  • Take notes about everything you could possibly imagine! EVERYTHING!
  • Buy yourself a thick notebook to write all your notes in. 
  • Calm your anxiety and worries about failing! You’ll be fine.
  • Listen in class! If you have an online course! Trust me, you’ll still want to study! It’s not a walk in the park either way.

Learn the periodic table. More than likely, your professor will NOT give you a periodic table during a test with the names of each element. It will be a periodic table with the symbol, atomic number and relative atomic mass. The periodic table our professor gave us was like this:

pt2

ONLY WITH NO CHARGES AT THE TOP ! NO CHARGES AND NO ELEMENT NAME. It all had to be memorized. Perhaps, you could luck up and get a professor that has a different table, but I doubt it. It is best to start studying the periodic table, if you haven’t yet started your chem. course.

  • I find the best way to study and learn all the element names and symbols, is to write down several everyday. Alternate across the table, and recall what you’re absorbing in. Write them down over and over. You’ll finally get them all down, or at least a good 75% of them. 

I will stop there for now, and will continue on later . . .