Basic Chemistry
Properties of water
Carbohydrates
Lipids
Proteins/Nucleic Acids
100

Definition of an isotope

same atom with a different number of neutrons

100

what is the chemical formula for water

H20

100

The monomer for carbohydrates

what is a monosaccharide

100

What term describes why fats and oils separate from water?

hydrophobic or non-polar 

100

What type of bonds are present in the secondary protein structures- alpha helixes and beta pleated sheets? This same bond is between nitrogenous bases in DNA.

hydrogen bonds

200

What are three different applications for isotopes?

1. carbon dating

2. killing unwanted cells (radiation in cancer or irradiation for food)

3. radioactive tracers 

200

This atom is slightly negatively charged in the water molecule

oxygen

200

In humans, name two places that glycogen is stored

muscles and liver

200

Name an example of a steroid

Testosterone, Estrogen, Cortisone, Cholesterol, Vitamin D 
200
Name the three parts of the nucleotide

1. phosphate

2. sugar

3. nitrogenous base

300

This is the strongest bond that we discussed

covalent bond

300

Draw NACl (salt) in water


300

Lactose is an example of what type of carbohydrate?

Disaccharide

300

Describe the difference between saturated and unsaturated fats.

Saturated fats tend to be from animal sources, are solid at room temperature, and are hydrogenated.

Unsaturated fats are mostly from plants, liquid at room temperature (oils), and have a double bond, which creates a kink in the structure. 

300

What are the monomers for Nucleic Acids and Proteins?

Proteins: amino acids

Nucleic Acids: nucleotides

400

Name and describe the three types of bonds we discussed in class.

ionic, covalent, and hydrogen

400
Describe how the hydrogen bonds contribute to these four properties of water: capillary action, heat capacity, density of water/ice, and water solvency

capillary action: hydrogen bonding between water molecules (cohesion); hydrogen bonding between water and another polar molecule- glass or plant wall.

heat capacity: the hydrogen bonds between water hold a lot of heat or energy, and they can be released through thermoregulation (sweating) or evaporation. 

density of water/ice: due to hydrogen bonding between positive and negative poles of the water molecule, when water freezes it forms in crystal shapes/structures that allow for more space or air, making it less dense than liquid water.

water solvency: the hydrogen bonding between polar charges and other polar substances makes water a good universal solvent.


400

Name three polysaccharides and their function

1. cellulose (plants)- structure

2. glycogen (animal cells)- energy

3. starch (plants)-energy storage

400

Describe the phospholipid bilayer and how its structure is important to its function

Hydrophilic phosphate head (water-loving) that organizes on the outside of the membrane with hydrophobic fatty acid tails that orient towards the inside, creating a buffer or layer. It is semi-permeable, so it only allows some things through the membrane. 

400

What are the 6 functions of proteins?

1. Enzymes

2. Structure (hair, collagen)

3. Cell signaling (hormones- insulin and growth hormone)

4. Transportation (ex. hemoglobin)

5. channel membrane transport

6. Antibodies (defense/immune system)

500

Name all the parts of an atom, location, and the appropriate weight and charge.

neutron- 1 AMU, neutral charge (in nucleus)

proton- 1 AMU, positive charge (in nucleus0

electron- close to weightless, negative charge (surrounds nucleus or orbits around)

500

Draw three water molecules and identify the atoms and bonds.


500

3 functions for carbohydrates?

energy, structure, and cell recognition

500

What are 4 functions of lipids?

energy, insulation, cell signaling (hormones), and cell membranes

500

Three differences in RNA and DNA

1. RNA has a uracil nitrogenous base vs. thymine in DNA

2. Ribose sugar in DNA is "deoxyribose" without oxygen

3. RNA is single-stranded, and DNA is double-stranded