osmosis and diffusion gummy bear lab. diffusion solute particles move from high concentration to low...

Osmosis and Diffusion Gummy Bear Lab

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Osmosis and DiffusionGummy Bear Lab

Diffusion

• SOLUTE PARTICLES move from HIGH concentration to LOW concentration.

HIGH CONCENTRATION

LOW CONCENTRATION

http://legacy.owensboro.kctcs.edu/GCaplan/anat/Notes/API%20Notes%20E%20%20Movement%20Across%20A%20Membrane.htm

Osmosis

• Diffusion of WATER across a membrane.• Water follows the solute particles.

“SOLUTE SUCKS!”

Page 4: Osmosis and Diffusion Gummy Bear Lab. Diffusion SOLUTE PARTICLES move from HIGH concentration to LOW concentration. HIGH CONCENTRATION LOW CONCENTRATION

Gummy Bears, Day 1

• A gummy bear, full of SUGAR SOLUTE, is placed in water.

• Where does the water want to go?– To the solute! The solute “sucks”

the water towards it.

Page 5: Osmosis and Diffusion Gummy Bear Lab. Diffusion SOLUTE PARTICLES move from HIGH concentration to LOW concentration. HIGH CONCENTRATION LOW CONCENTRATION

Water follows solute!

Page 6: Osmosis and Diffusion Gummy Bear Lab. Diffusion SOLUTE PARTICLES move from HIGH concentration to LOW concentration. HIGH CONCENTRATION LOW CONCENTRATION

So now your gummy looks like this:

After sitting in a glass of water

Normal size

Page 7: Osmosis and Diffusion Gummy Bear Lab. Diffusion SOLUTE PARTICLES move from HIGH concentration to LOW concentration. HIGH CONCENTRATION LOW CONCENTRATION

Gummy Bears, Day 2

• A gummy bear, full of water and sugar solute, is placed in a cup of fresh water.

• What happens? – Since the gummy still contains more solute (sugar)

inside, the water does not flow in or out of the gummy bear.

Page 8: Osmosis and Diffusion Gummy Bear Lab. Diffusion SOLUTE PARTICLES move from HIGH concentration to LOW concentration. HIGH CONCENTRATION LOW CONCENTRATION

Gummy Bear, Day 2

• A gummy bear, full of water and sugar, is placed in a cup full of concentrated salt water.

• Where does the water want to go?– Since the salt water was much more concentrated,

the water now flows from the gummy bear to the water. “SOLUTE SUCKS!”

Page 9: Osmosis and Diffusion Gummy Bear Lab. Diffusion SOLUTE PARTICLES move from HIGH concentration to LOW concentration. HIGH CONCENTRATION LOW CONCENTRATION

Water will go where there is more concentrated solute! “SOLUTE SUCKS!”

Page 10: Osmosis and Diffusion Gummy Bear Lab. Diffusion SOLUTE PARTICLES move from HIGH concentration to LOW concentration. HIGH CONCENTRATION LOW CONCENTRATION

After sitting in concentrated salt water:

He has lost all of his excess water to the high salt concentration in the outside water!

Page 11: Osmosis and Diffusion Gummy Bear Lab. Diffusion SOLUTE PARTICLES move from HIGH concentration to LOW concentration. HIGH CONCENTRATION LOW CONCENTRATION

Law of Conservation of Mass

Matter or Mass cannot be created, lost, or destroyed.

The reactants = the products

This is why we must balance equations!

Page 12: Osmosis and Diffusion Gummy Bear Lab. Diffusion SOLUTE PARTICLES move from HIGH concentration to LOW concentration. HIGH CONCENTRATION LOW CONCENTRATION

Lab Station #1- Baking soda + VinegarSubstance Mass

Vinegar (reactant) 11.0g

Baking soda (reactant) + 2.5g

Theoretical mass of products= =13.5g

Solid baking soda + vinegar after reacting

(total product)

13.0g

How much was lost as a gas????

13.5-13.0=0.5g (amount of product escaped as

a gas!!)

Page 13: Osmosis and Diffusion Gummy Bear Lab. Diffusion SOLUTE PARTICLES move from HIGH concentration to LOW concentration. HIGH CONCENTRATION LOW CONCENTRATION

Lab Station #1- What happened?

Vinegar(11.0g)

REACTANTS = 13.5g

PRODUCTS=13.5g

Vinegar + Baking Soda (13.0g)

2.5g

Gas (0.5g)

Page 14: Osmosis and Diffusion Gummy Bear Lab. Diffusion SOLUTE PARTICLES move from HIGH concentration to LOW concentration. HIGH CONCENTRATION LOW CONCENTRATION

Station #2-Balancing Equations

All chemical reactions must satisfy, or meet the Law of Conservation of Mass!!!

We must balance all of the atoms on each side of the reaction.

Example:2 C2H6(g) + 7 O2(g) 4 CO2(g) + 6 H2O(g)

Page 15: Osmosis and Diffusion Gummy Bear Lab. Diffusion SOLUTE PARTICLES move from HIGH concentration to LOW concentration. HIGH CONCENTRATION LOW CONCENTRATION

Mg(s) + O2 (g) → MgO(s)

Page 16: Osmosis and Diffusion Gummy Bear Lab. Diffusion SOLUTE PARTICLES move from HIGH concentration to LOW concentration. HIGH CONCENTRATION LOW CONCENTRATION

Fe2O3 + CO 2Fe + CO2

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osmosis and diffusion gummy bear lab. diffusion solute particles move from high concentration to low...

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concentrated salt water

g reactants

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