bellwork: get out your lab review your questions, and summary with your group (4 min) copied and...

Bellwork:•Get out your lab•Review your questions, and summary

with your group (4 Min)•Copied and answered questions (HW)1. When we added water, what process was occurring;

dehydration synthesis or hydrolysis? Describe the glue after water was added.

2. When we added borax, what process was occurring; dehydration synthesis or hydrolysis? Describe the glue after borax was added.

The glue contains a polymer called polyvinyl acetate resin.

We changed the polymer’s behaviors twice in this activity;

once when we added water and the second time when we added

borax.

QuestionsLevel 1 – Describe…….Level 2 – Explain………Level 3 – Predict……….

Summarymust include these

words-polymer

hydrolysisdehydration synthesis

Gloop Lab

Page _________

Essential Question:

Question Column

Glue + Food Coloring

Add Water Add Borax

L1 –

L2 –

L3 –

Prediction:

Hypothesis:

Observation:

Diagram:

Prediction:

Hypothesis:

Observation:

Diagram:

Prediction:

Hypothesis:

Observation:

Diagram:

Summary -

StandardB.9A – Compare the structure and

functions of different types of biomolecules.

Essential Question How are carbohydrates essential for life?

Page 15 Carbohydrate Notes

Page 16 Foldable - Biomolecules

Carbohydrates & Lipids

Objective: The objective of class today is to learn the structure and

function of carbohydrates and lipids in living systems.

Living things use carbohydrates as their main source of energy. Plants and some

animals also use carbohydrates for structural purposes.

The breakdown of sugars supplies immediate energy for all cell activities.

The breakdown of sugars supplies immediate energy for all cell activities.

Living things store extra sugar as complex carbohydrates known as

starches.

Single sugar molecules are called monosaccharides. (simple sugars)

Three examples of monosaccharides include:

• Glucose

• Galactose

• Fructose

Large molecules made from monosaccharides are called

polysaccharides.

Three examples of a polysaccharide include:

Carbohydrates• Rings that link

together in chains

• contain C, H, O• Ratio of carbon:

hydrogen: oxygen is 1:2:1

• energy = 4 cal/gram

Carbohydrate

Structure: Functions:

Monomer: Polymer:

•Circle or ring shaped•Create a 1:2:1 ratio

Elements:•C, H, O

•Main source of immediate energy

Good to know:•Often known as simple (monomers) and complex (polymers)

•Monosaccharide•Examples: glucose, sucrose

•Polysaccharide•Examples: starch, cellulose

Biomolecule Foldable – Part 1 (Carbohydrates)

1. One full sheet per person2. Hotdog and hamburger fold,

then unfold3. Fold a Window Pane4. Cut creases to open window5. Window Pane 1

a. Outline border with one colorb. “Carbohydrates”c. Draw a glucose moleculed. Label the “Glucose” molecule

6. Outside Window Pane 1a. 2 Functionsb. 4 Examples

7. Inside Lower Panel 1a. “Monomer”

b. Monomer Definitionc. Draw a picture of monomers

8. Inside Lower Panel 2a. “Polymer”b. Polymer Definitionc. Draw a picture of a polymer

9. Inside Upper Panel 1 a. “Dehydration Synthesis”b. Dehydration Synthesis Definitionc. Draw a picture of a Dehydration

Synthesis

10. Inside Upper Panel 2 a. “Hydrolysis”b. Hydrolysis Definitionc. Draw a picture of Hydrolysis

H

Energy in Food

• Burning carbohydrates – watch and write down your observations

• Burning lipids – take notes and write down any observations

• Calories in food – take notes…MAKE SURE you write down how many calories per gram in each biomolecule AND the daily recommended allowance