visualizing the balancing of chemical equations by daniel r. barnes init: 1/9/2007 from previous...
TRANSCRIPT
Visualizing the balancing of chemical equations
By Daniel R. Barnes
Init: 1/9/2007 from previous work
NOTE: This presentation is meant to go along with Mr. Barnes’ cardboard disc reactions worksheet, which is meant to be used with a set of specially-colored cardboard discs, each disc representing an atom of an element indicated by the color of the disc.NOTE: As always, some of the images in this presentation have been taken from the world wide web without permission of their owners. Copying and distribution of this presentation may be, therefore, illegal. In fact, its mere existence may be illegal.
You may hit the “End” key at any time to jump to the hyperTable of Contents.
SWBAT . . . . . . balance chemical equations.
. . . define “activation energy” and give real life examples.
. . . explain why some reactions are endothermic and other reactions are exothermic.
reactants turn into products
1. C + O2 CO2
Skip to answer
1. C + O2 CO2
Skip to answer
1. C + O2 CO2
Skip to answer
1. C + O2 CO2
Please note: charcoal briquette ashes are not made of carbon dioxide. CO2 is a colorless, odorless gas. Charcoal ashes are made of alkali metal compounds and other stuff. Charcoal is not pure carbon. If it were, there would be no ashes left after charcoal burned.
Skip to answer
1. C + O2 CO2
C =O =
12
C =O =
12
Before you go to your lab tables and start working with the discs, we’d better make sure we know the definitions of . . .
Chemicals absorb energy Surroundings get colder.
Chemicals release energy Surroundings get hotter.
If forming new bonds releases more energy than the activation energy required to break the old bonds . . .
. . . The reaction will be EXOTHERMIC
If forming new bonds releases less energy than the activation energy required to break the old bonds . . .
. . . The reaction will be ENDOTHERMIC
All chemical reactions, whether they are endothermic or exothermic, typically involve endothermic bond breakage AND exothermic bond formation.
Spend $200 for materials
Sell $100 worth of hot dogs
Spend $200 for materials
Sell $400 worth of hot dogs
$100 LOSS
$200PROFIT
Spend $200 for materials
Sell $100 worth of hot dogs
Spend $200 for materials
Sell $400 worth of hot dogs
$100 LOSS
$200PROFIT
Breaking old bonds
Making new bonds
Costs money Costs
energy
Yieldsmoney
Yieldsenergy
Absorb 200 kJ of energy
breaking old bonds
Relase 100 kJ of energy
forming new bonds
Absorb 200 kJ of energy
breaking old bonds
Release 400 kJ of energy
forming new bonds
Breaking old bonds
Making new bonds
EXOthermicENDOthermic
NOTE: The circled numbers are made up. They’re not real.
Q: What is the difference between an endothermic process and an exothermic process?
A: Endothermic processes absorb heat, making their surroundings colder, whereas exothermic processes give off heat, making their surroundings get hotter.
Q: What is activation energy?
A: The energy input required to make a reaction happen, even if it’s an exothermic reaction. It’s the energy required to break old bonds.
Mr. Barnes, please (1) Open the windows.(2) Put goggles on the kids in the front two rows.(3) Put a few drops of glycerine on a dimpled pile of potassium
permanganate.
This reaction is definitely exothermic, as shown by the fire coming out of it.
The reaction was spontaneous at room temperature. No matches, sparks, UV light, or other input of activation energy was needed to get it going.
The apparently low activation energy may indicate weak bonds somewhere in the reactants.
One of the main reactions that happens when these two chemicals go crazy on each other is the following:
14KMnO4(s) + 4C3H5(OH)3(l) →
7K2CO3(s) + 7Mn2O3(s) + 5CO2(g) + 16H2O(g)
I’ve left the coefficients covered so that you can try to balance this monster for extra credit when you’re all done with the worksheet.
A slide near the end of this presentation has the coefficients on it if you want to find out what they are.
1. C + O2 CO2
C =O =
12
C =O =
12
Your worksheet should already look like this for #1.
Mr. Barnes will now have you animate the reaction with cardboard discs. At this point, Mr. Barnes may wish to turn off the projector. If he does, the rest of this presentation can be viewed at hhscougars.org, on Mr. Barnes’ Chemistry Power Points page.
2. H2 + O2 H2O
formulassubscripts
Skip to answer
2. H2 + O2 H2O Explosive chemical reactions can blow up a vehicle and destroy it, but they can also make vehicles move in the first place.
The big, orange external fuel tank of the space shuttle contains hydrogen and oxygen.
The two gasses are mixed together and ignited in the three engines under the tail fin of the orbiter. The flames that come out of those engines are made of water vapor – water vapor that’s so hot that it glows.
The white rockets on the side of the fuel tank use a solid fuel. I don’t know what that fuel is.
Skip to answer
H = O =
H = O =
22
21
4 42
2 2
Okay. Let’s re-run the reaction from the beginning, but this time we’re goingto get it right the first time.
In a chemical reaction,atoms are neithercreated nor destroyed.They just change who they’re stuck to.
If you start out with two oxygen atoms, you should end up with two oxygen atoms
coefficient
2. H2 + O2 H2O
Skip to answer
2. H2 + O2 H2O H = O =
H = O =
22
21
4 42
2 2
Skip to answer
2. H2 + O2 H2O H = O =
H = O =
22
21
4 42
2 2
Skip to answer
2. H2 + O2 H2O H = O =
H = O =
22
21
4 42
2 2
3. CH4 + O2 H2O + CO2
C =H = O =
C =H = O =
142
123
First, we need to see if the equation is balanced or not.We need to do an . . . . . . atom count.
Skip to answer
3. CH4 + O2 H2O + CO222
C =H = O =
C =H = O =
142
123
Something is obviously wrong. Let’s animate the equation as it is and see if we notice anything weird.
444
Skip to answer
3. CH4 + O2 H2O + CO222
Skip to answer
3. CH4 + O2 H2O + CO222
C =H = O =
C =H = O =
142
1234
44
Skip to answer
3. CH4 + O2 H2O + CO222
C =H = O =
C =H = O =
142
1234
44
atom census(reactants)
“before”picture
“after”picture
atomcensus
(products)
Skip to answer
3. CH4 + O2 H2O + CO222
C =H = O =
C =H = O =
142
1234
44
http://www.youtube.com/watch?v=4U-DgdWPKyo
The famous “ammonia fountain” demonstration is something we won’t explain until chapter 14 (gases). However, if you want to see it happen, click the link below. If that doesn’t work, just go to YouTube and type in “ammonia fountain.”
4. NH3 + H2O NH4OH
N =H = O =
N =H = O =
151
151
Skip to answer
http://www.youtube.com/watch?v=4U-DgdWPKyo
The famous “ammonia fountain” demonstration is something we won’t explain until chapter 14 (gases). However, if you want to see it happen, click the link below. If that doesn’t work, just go to YouTube and type in “ammonia fountain.”
4. NH3 + H2O NH4OH
N =H = O =
N =H = O =
151
151
N N
Skip to answer
4. NH3 + H2O NH4OH
N =H = O =
N =H = O =
151
151
N N
Skip to answer
4. NH3 + H2O NH4OH
N =H = O =
N =H = O =
151
151
N N
When water and carbon dioxide mix, they produce carbonic acid. Carbonic acid is a “weak” acid found in soda and any other carbonated beverage. It may be a “weak” acid, but it is acidic enough to partially dissolve certain rocks over time. Carbonic acid, therefore, is an agent of “chemical weathering”.
5. CO2 + H2O H2CO3
C =O = H =
C =O = H =
132
132
Skip to answer
5. CO2 + H2O H2CO3
C =O = H =
C =O = H =
132
132
When water and carbon dioxide mix, they produce carbonic acid. Carbonic acid is a “weak” acid found in soda and any other carbonated beverage. It may be a “weak” acid, but it is acidic enough to partially dissolve certain rocks over time. Carbonic acid, therefore, is an agent of “chemical weathering”.
Skip to answer
5. CO2 + H2O H2CO3
C =O = H =
C =O = H =
132
132
Skip to answer
5. CO2 + H2O H2CO3
C =O = H =
C =O = H =
132
132
The reaction below is an example of an acid-base “neutralization”.
6. HCl + Ba(OH)2 H2O + BaCl2
H =Cl = Ba =O =
3 H =Cl = Ba =O =
112
2211
You might be tempted to try to balance hydrogen first, because it’s the first element in the equation, but I wouldn’t if I were you.
Notice that hydrogen appears in three different formulas in the equation.Trust me when I say that you should balance first those elements that appear in the least number of formulas.
Let’s save hydrogen for later . . . Skip to answer
6. HCl + Ba(OH)2 H2O + BaCl2
H =Cl = Ba =O =
3 H =Cl = Ba =O =
112
2211
The second element in the equation, chlorine, appears in only two formulas (the smallest possible # of places).
Let’s balance chlorine first.
We balance an element by increasing whatever coefficient will increase the amount of that element.
Remember: when you’re balancing an equation you can only change the coefficients.
DON’T TOUCH THE SUBSCRIPTS! Skip to answer
6. HCl + Ba(OH)2 H2O + BaCl2
H =Cl = Ba =O =
3 H =Cl = Ba =O =
112
2211
EXAMPLE: Someone who didn’t know what they’re doing might foolishly put a “2” as a subscript after the “Cl” in “HCl”.
2
DON’T DO THAT! You’re not supposed to change subscripts when you balance a chemical equation!
There’s no such chemical as HCl2, and even if there were, it wouldn’t be hydrochloric acid anymore.
When you balance a chemical equation, you’re not changing the identity of the chemicals in the reaction, just how much of each chemical there is. Skip to answer
6. HCl + Ba(OH)2 H2O + BaCl2
H =Cl = Ba =O =
3 H =Cl = Ba =O =
112
2211
The proper thing to do is to put a coefficient of “2” in front of HCl on the left.
2
As soon as you change a coefficient, you need to adjust the atom count for any element in that formula.
Doubling the amount of HCl increases the amount of H . . .
4
. . . and also the amount of Cl.
2
We’ve now balanced the # of Cl’s on the left and the right.
Skip to answer
22
6. HCl + Ba(OH)2 H2O + BaCl2
H =Cl = Ba =O =
3 H =Cl = Ba =O =
112
2
11
Now chlorine is fixed, but there still isn’t enough oxygen on the right.
24
Putting a coefficient of “2” in front of H2O on the right will double the amount of oxygen, balancing it as well.
2
Of course, the “2” doubles not only the O’s on the right, but , but also the H’s.
2
4
Would you look at that? The H’s got balanced by accident! Skip to answer
Cl 22
6. HCl + Ba(OH)2 H2O + BaCl2
H =Cl = Ba =O =
3 H =Cl = Ba =O =
112
2
11
24
2
2
4
And now, for the cartoon . . .
Ba
Cl
Cl
Ba
Cl
Skip to answer
Cl 22
6. HCl + Ba(OH)2 H2O + BaCl2
H =Cl = Ba =O =
3 H =Cl = Ba =O =
112
2
11
24
2
2
4
Ba
Cl
Cl
Ba
Cl
7. HCl + NaOH H2O + NaClH =Cl = Na =O =
2 H =Cl = Na =O =
How boring. This one’s already balanced.
Here’s an even more classic acid-base neutraliztion:
111
2111
ClNa
Cartoon, please!
Cl
Na
Skip to answer
7. HCl + NaOH H2O + NaClH =Cl = Na =O =
2 H =Cl = Na =O =
111
2111
ClNa Cl
Na
8. NI3 N2 + I2
N =I =
1
There’s not enough nitrogen on the left, so we need to get more by . . .
This reaction is the decomposition of nitrogen triiodide.
N =I =3
22
http://www.youtube.com/watch?v=2KlAf936E90
. . . putting a coefficient of “2” in front of NI3.
22
As always, any time you change a coefficient, you must adjust the atom counts for every element in the formula you put the coefficient in front of.
6
Now we need more iodine on the right, so . . .
3
6
Skip to answer
8. NI3 N2 + I2
N =I =
1
Here comes the cartoon . . .
This reaction is the decomposition of nitrogen triiodide.
N =I =3
22
http://www.youtube.com/watch?v=2KlAf936E90
226
3
6I
IIN
III
N
I II
N
III
N
Skip to answer
8. NI3 N2 + I2
N =I =
1 N =I =3
22
226
3
6I
IIN
II
I IIII
N I
N
I
N
9. Fe + O2 Fe2O3
Fe =O =
There’s not enough iron on the left, so . . .
The following reaction is steel wool burning.
http://www.youtube.com/watch?v=39diUfWnbPY
12
2Fe =O = 3
22
Now, we’ve got a problem. We want to end up with three oxygen atoms on the left, but if we put a “2” in front of the “O2” on the left, we’ll end up with four “O’s” on the left instead of three. 1O2 is not enough, and 2O2 is too much.
The solution is a little crazy. We can put a 3/2 as a coefficent.
23
3/2 x 2 = 6/2 = 3. Now we’re balanced.
3
It’s actually standard procedure for chemists to use fractional coefficients, but only if it’s an odd number over two, and only if it’s in front of a diatomic element. Skip to answer
9. Fe + O2 Fe2O3
Fe =O =
We’ve got a problem when it comes time to draw the cartoon for the reaction, though.
The following reaction is steel wool burning.
http://www.youtube.com/watch?v=39diUfWnbPY
12
2Fe =O = 3
22
23
3
Drawing 3/2 of an oxygen molecule is kind of like drawing 3/2 of a person or 3/2 of a tv.
The solution is to double all the coefficients in the equation.
4 3 2
Doubling all the coefficients doubles all the atom counts . . .
46
46
. . . and the equation is still just as balanced as before the doubling.
Skip to answer
9. Fe + O2 Fe2O3
Fe =O =
Now that all the coefficients are whole numbers, drawing the cartoon will be much easier. We won’t have to split any circles in half or anything dumb like that.
The following reaction is steel wool burning.
http://www.youtube.com/watch?v=39diUfWnbPY
12
2Fe =O = 3
22
23
3
4 3 246
46Fe
Fe Fe
Fe
Fe
Fe
Fe
Fe
Skip to answer
9. Fe + O2 Fe2O3
Fe =O =
12
2Fe =O = 3
22
23
3
4 3 246
46Fe
Fe Fe
Fe
Fe
Fe
Fe
Fe
Notice that oxygen occurs in all four formulas in this equation.
And now, we burn methanol, like a “top methanol dragster”.
C =H =O =
C =H =O =
143
123
We should save oxygen for last and balance something else first.
Carbon is already balanced, and hydrogen appears in only two places, so hydrogen should be our first element to balance.
10. CH3OH + O2 CO2 + H2O
Skip to answer
10. CH3OH + O2 CO2 + H2O
And now, we burn methanol, like a “top methanol dragster”.
C =H =O =
C =H =O =
143
123
We’re almost balanced now, but we need one more oxygen atom on the left.
2
44
Unfortunately, if we add an O2, we get two more oxygen atoms, not one more.
Don’t you worry! Oxygen is a diatomic element, so we can use fractional coefficients with O2, as long as the fraction is an odd number divided by two. Skip to answer
10. CH3OH + O2 CO2 + H2O
And now, we burn methanol, like a “top methanol dragster”.
C =H =O =
C =H =O =
143
123
2
44
Now we’re balanced, and most chemists would say we’re done.
23
4
However, we want to draw a cartoon, and half-circles look stupid, so let’s get rid of that fraction by . . .
. . . multiplying all coefficients by two.
2 3 2 4
This means multiplying all atom counts by two.
28
8
288
Now we’re ready to draw the cartoon. Skip to answer
10. CH3OH + O2 CO2 + H2O
And now, we burn methanol, like a “top methanol dragster”.
C =H =O =
C =H =O =
143
123
2
44
23
4
2 3 2 428
8
288
Skip to answer
10. CH3OH + O2 CO2 + H2OC =H =O =
C =H =O =
143
123
2
44
23
4
2 3 2 428
8
288
Dang.
You made it this far?
E-mail Mr. Barnes and tell him that you saw the sasquatch if you want some XCR.
I bet you need more in-class practice.
You need to balance some more equations.
Your group leader needs to get everyone in your group an “SP Book”.
YOUR ASSIGNMENT:
Section 9:2 pg 64: PROBLEMS 1-5
Section 9:3 pg 65: PROBLEMS 11 – 14pg 66: PROBLEMS 21 – 24pg 67: PROBLEMS 31 – 34
(You can do the other problems in 9:2 and 9:3 for extra credit if you’re really brave, but they might be hard.)
The answers are in the back of the book, on pages 273-274
What do the following things mean?
(cr)
(s)
(l)
(g)
(aq)
= “crystal”
= “solid”
= “liquid”
= “gas”
= “aqueous” = dissolved in water
They all have something to do with . . . . . . states of matter.
Please ignore them in this exercise. They don’t affect equation-balancing at all.
EQUATION-COPYING TIPS:
(i) Don’t copy state of matter info ((cr), (s), (l), (g), or (aq)).
For example, if the SP book says
“1. Mg(cr) + O2(g) MgO(cr)”
You should write, on your paper,
“1. Mg + O2 MgO”
(ii) Leave plenty of room in front of each formula so that you can put coefficients there. Consider that you might have to change a coefficient more than once, so leave plenty of room.
LOTSOF
SPACE
LOTSOF
SPACE
LOTSOF
SPACE
One last thing . . . Please remember the following saying:
Give a man a fish, and you feed him for
a day.
Teach a man to fish, and
you feed him for a lifetime.
There’s only one teacher in the room, and I might be busy when you need help.
If you run into trouble, ask the people around you for help.
If you do, don’t just ask for the answer.
Ask HOW you get the answer.
YOUR ASSIGNMENT:
Section 9:2 pg 64: PROBLEMS 1-5
Section 9:3 pg 65: PROBLEMS 11 – 14pg 66: PROBLEMS 21 – 24pg 67: PROBLEMS 31 – 34
The answers are in the back of the book, on pages 273-274.If you get one right, put a happy face. If you get it wrong but understand it after you see the answer, put a check. If you still don’t get it even after you see the answer, put a question mark and get help from a neighbor or your teacher.
“SP Book Problems, 9:2 & 9:3”
now
Have you tried balancing the equation below yet?
14KMnO4(s) + 4C3H5(OH)3(l) →
7K2CO3(s) + 7Mn2O3(s) + 5CO2(g) + 16H2O(g)
Don’t press any buttons until you’ve tried, or you’ll spoil the surprise.
Did you get it right? If you couldn’t, you might ask Mr. Barnes to show you his algebraic method for balancing difficult equations.
1. C + O2 CO2
C =O =
12
C =O =
12
2. H2 + O2 H2O H = O =
H = O =
22
21
4 42
2 2
3. CH4 + O2 H2O + CO222
C =H = O =
C =H = O =
142
1234
44
4. NH3 + H2O NH4OH
N =H = O =
N =H = O =
151
151
N N
5. CO2 + H2O H2CO3
C =O = H =
C =O = H =
132
132
Cl 22
6. HCl + Ba(OH)2 H2O + BaCl2
H =Cl = Ba =O =
3 H =Cl = Ba =O =
112
2
11
24
2
2
4
Ba
Cl
Cl
Ba
Cl
7. HCl + NaOH H2O + NaClH =Cl = Na =O =
2 H =Cl = Na =O =
111
2111
ClNa Cl
Na
8. NI3 N2 + I2
N =I =
1 N =I =3
22
226
3
6I
IIN
II
I IIII
N I
N
I
N
9. Fe + O2 Fe2O3
Fe =O =
12
2Fe =O = 3
22
23
3
4 3 246
46Fe
Fe Fe
Fe
Fe
Fe
Fe
Fe
10. CH3OH + O2 CO2 + H2OC =H =O =
C =H =O =
143
123
2
44
23
4
2 3 2 428
8
288
Title Page
SWBATS
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
SP Book
Demo EQ answer
Just the answers