Exercises 0-3: Lesson 0 was simply lighting the board, and I started at 1 instead of 0. The other segments are just the step by step given through the Ladyada Lessons
Exercise 5:
Monday, August 31, 2015
08/31 Arduino Ladyada Exercises 0-3 & 5
Exercises 0-3: Lesson 0 was simply lighting the board, and I started at 1 instead of 0. The other segments are just the step by step given through the Ladyada Lessons
8/31 mysterious resistance
orange, orange red Gold
4 4 00 +/- 5%=4180 to 4620
Yellow, Blue, Red
462 4600
46*5%=230
4600+/-230=4320 to4830
Yellow, Brown, Black, Gold
410 +/-5%=38.95 to 43.05
Yellow, Purple, Black
470
47*%5=2.35
47+\-2.35=44.65 to49.35
Green, Orange, Red, Gold
5300+/-5%=5161to 5439
4 4 00 +/- 5%=4180 to 4620
Yellow, Blue, Red
462 4600
46*5%=230
4600+/-230=4320 to4830
Yellow, Brown, Black, Gold
410 +/-5%=38.95 to 43.05
Yellow, Purple, Black
470
47*%5=2.35
47+\-2.35=44.65 to49.35
Green, Orange, Red, Gold
5300+/-5%=5161to 5439
8/31 Ohm's Law Problems - In Class Exercise
Ohm's Law Problems
Simple questions based on
the law V = IR
|
What current would flow through a resistor
of 20 ohms connected to a 12 V supply?
| ||||||||||
What current would flow through a resistor
of 40 ohms connected to a 10 V supply?
| ||||||||||
A 100 ohm resistor is connected to a 20 V
supply. What current flows?
| ||||||||||
What value of resistor would be used to
permit a current of 0.2 A to flow using a 6V supply?
| ||||||||||
What supply voltage would be needed to
provide a current of 1.2 A through a 40 ohm resistor?
| ||||||||||
A resistor allows a current of 0.6 A to
flow when connected to a 9.6 volt supply.
What current would flow if the same resistor was connected to a 12.8 V supply?
| ||||||||||
Calculate the voltage supply needed to
produce a current of 12A when used with a 48 ohm resistor.
| ||||||||||
Calculate the voltage across a 300 ohm
resistor when a current of 0.004 A flows through it.
| ||||||||||
Find the size of resistor which would allow
limit the current to a value of 0.02 A when connected to an 8 V supply.
| ||||||||||
Calculate the current that will flow when a
total resistance of 500 ohms is placed in a circuit which has a 15 volt
supply.
|
8/31 Mystery Resistors In Class Exercise
Resistor 1:
Brown Black Black Gold
1 0 0 0.05%
10Ω +/- 0.05% = 9.5 - 10.5Ω
Resistor 2
Orange Orange Blue Gold
3 3 6 0.05%
33MΩ +/- 0.05%= 31,350,000 - 34,650,000Ω
Resistor 3
Green Blue Brown Gold
5 6 1 0.05%
560Ω +/- 0.05% = 532 - 588Ω
Resistor 4
Orange Orange Brown Gold
3 3 1 0.05%
330Ω +/- 0.05% = 313.5 - 346.5Ω
Resistor 5
Yellow Violet Brown Gold
4 7 1 0.05%
470Ω +/- 0.05% = 446.5 - 494.5Ω
Resistor 6
Yellow Violet Black Gold
4 7 0 0.05%
47Ω +/- 0.05% = 44.65 - 49.35Ω
Resistor 6
Green Brown Black Gold
5 1 0 0.05%
51Ω +/- 0.05% = 48.45 - 53.55Ω
Brown Black Black Gold
1 0 0 0.05%
10Ω +/- 0.05% = 9.5 - 10.5Ω
Resistor 2
Orange Orange Blue Gold
3 3 6 0.05%
33MΩ +/- 0.05%= 31,350,000 - 34,650,000Ω
Resistor 3
Green Blue Brown Gold
5 6 1 0.05%
560Ω +/- 0.05% = 532 - 588Ω
Resistor 4
Orange Orange Brown Gold
3 3 1 0.05%
330Ω +/- 0.05% = 313.5 - 346.5Ω
Resistor 5
Yellow Violet Brown Gold
4 7 1 0.05%
470Ω +/- 0.05% = 446.5 - 494.5Ω
Resistor 6
Yellow Violet Black Gold
4 7 0 0.05%
47Ω +/- 0.05% = 44.65 - 49.35Ω
Resistor 6
Green Brown Black Gold
5 1 0 0.05%
51Ω +/- 0.05% = 48.45 - 53.55Ω
8.31.15 mystery resister exercise
Brown black black gold = 10 = 9.5-10.5
Orange orange brown gold = 330 = 313.5-346.5
Yellow violet brown gold = 470 = 446.5-493.5
Green green brown gold = 550 = 522.5-577.5
Orange orange red gold = 3300 = 3135-3365
Red violet red gold = 2700 = 2565-2835
Orange orange brown gold = 330 = 313.5-346.5
Yellow violet brown gold = 470 = 446.5-493.5
Green green brown gold = 550 = 522.5-577.5
Orange orange red gold = 3300 = 3135-3365
Red violet red gold = 2700 = 2565-2835
8/31/15 George and Tyra Class Exercise: Resistor Activity
Resistor 1
brown back black gold
10 ohms +/- 5% 9.5 to 10.5
Resistor 2
green blue brown gold
560 ohms +/- 5% 532 to 588
Resistor 3
yellow purple red gold
4700 Ohms +/- 5% 4465 to 4935
brown back black gold
10 ohms +/- 5% 9.5 to 10.5
Resistor 2
green blue brown gold
560 ohms +/- 5% 532 to 588
Resistor 3
yellow purple red gold
4700 Ohms +/- 5% 4465 to 4935
8/31 Mystery Resistor Exercise
Green Brown Red Gold
5 1 2 .05
5100 x .05 = +/- 255
5050 to 5355
Orange Orange Brown Gold
3 3 1 .05
330 x .05 = +/- 16.5
313.5 to 346.5
Orange Orange Red Gold
3 3 2 .05
3300 x .05 = +/- 165
3135 to 3465
5 1 2 .05
5100 x .05 = +/- 255
5050 to 5355
Orange Orange Brown Gold
3 3 1 .05
330 x .05 = +/- 16.5
313.5 to 346.5
Orange Orange Red Gold
3 3 2 .05
3300 x .05 = +/- 165
3135 to 3465
8/31 - Resistor exercise with Jen and Annie
1. Green, brown, black, gold
Green = 5
Brown = 1
Black = 0
Gold = 5% Tolerance
Resistance = 51 Ohms with 5% tolerance = 51 +- 2.55 = 48.45 Ohms to 53.55 Ohms
2. Orange, orange, brown, gold
Orange =3
Orange =3
Brown = 1
Gold = 5% Tolerance
Resistance = 330 Ohms with 5% tolerance = 330 +- 16.5 = 313.5 Ohms to 346.5 Ohms
3. Orange, orange, black, gold
Orange = 3
Orange = 3
Black = 0
Gold = 5% Tolerance
Resistance = 33 Ohms with 5% tolerance = 33 +- 1.65 = 31.35 Ohms to 34.65 Ohms
4. Green, blue, brown, gold
Green= 5
Blue = 6
Brown = 1
Gold = 5% Tolerance
Resistance = 560 Ohms with 5% tolerance = 560 +- 28 = 532 Ohms to 588 Ohms
5. Brown, black, black, gold
Brown= 1
Black = 0
Black = 0
Gold = 5% Tolerance
Resistance = 10 Ohms with 5% tolerance = 10 +- 0.5 = 9.5 Ohms to 10.5 Ohms
6. Yellow, violet, brown, gold
Yellow = 4
Violet = 7
Brown = 1
Gold = 5% Tolerance
Resistance = 470 Ohms with 5% tolerance = 470 +- 23.5 = 446.5 Ohms to 493.5 Ohms
7. Yellow, violet, black, gold
Yellow = 4
Violet = 7
Black = 0 Gold = 5% Tolerance
Resistance = 47 Ohms with 5% tolerance = 47 +- 2.35 = 44.65 Ohms to 49.35 Ohms
Annie and Jen
Green = 5
Brown = 1
Black = 0
Gold = 5% Tolerance
Resistance = 51 Ohms with 5% tolerance = 51 +- 2.55 = 48.45 Ohms to 53.55 Ohms
2. Orange, orange, brown, gold
Orange =3
Orange =3
Brown = 1
Gold = 5% Tolerance
Resistance = 330 Ohms with 5% tolerance = 330 +- 16.5 = 313.5 Ohms to 346.5 Ohms
3. Orange, orange, black, gold
Orange = 3
Orange = 3
Black = 0
Gold = 5% Tolerance
Resistance = 33 Ohms with 5% tolerance = 33 +- 1.65 = 31.35 Ohms to 34.65 Ohms
4. Green, blue, brown, gold
Green= 5
Blue = 6
Brown = 1
Gold = 5% Tolerance
Resistance = 560 Ohms with 5% tolerance = 560 +- 28 = 532 Ohms to 588 Ohms
5. Brown, black, black, gold
Brown= 1
Black = 0
Black = 0
Gold = 5% Tolerance
Resistance = 10 Ohms with 5% tolerance = 10 +- 0.5 = 9.5 Ohms to 10.5 Ohms
6. Yellow, violet, brown, gold
Yellow = 4
Violet = 7
Brown = 1
Gold = 5% Tolerance
Resistance = 470 Ohms with 5% tolerance = 470 +- 23.5 = 446.5 Ohms to 493.5 Ohms
7. Yellow, violet, black, gold
Yellow = 4
Violet = 7
Black = 0 Gold = 5% Tolerance
Resistance = 47 Ohms with 5% tolerance = 47 +- 2.35 = 44.65 Ohms to 49.35 Ohms
Annie and Jen
8/31 mystery resistor class exercise
brown black black gold
1, 0, 0, 0.5
10 ohms with a 5% tolerance
9.5-10.5
green brown black gold
5, 1, 0
51 ohms with a 5% tolerance
48.5-53.55
yellow violet black gold
4, 7, 0
47 ohms 5% tolerance
44.65-49.35
orange orange brown gold
3, 3, 1
330 ohms 5% tolerance
313.5-346.5
yellow violet brown gold
4, 7, 1
470 ohms 5% tolerance
446.5-493.5
orange orange green gold
3, 3, 5
3300000 ohms 5% tolerance (3.3 megaOhms)
3135000 - 3465000
green blue brown gold
5, 6, 1
560 ohms
532 - 588
1, 0, 0, 0.5
10 ohms with a 5% tolerance
9.5-10.5
green brown black gold
5, 1, 0
51 ohms with a 5% tolerance
48.5-53.55
yellow violet black gold
4, 7, 0
47 ohms 5% tolerance
44.65-49.35
orange orange brown gold
3, 3, 1
330 ohms 5% tolerance
313.5-346.5
yellow violet brown gold
4, 7, 1
470 ohms 5% tolerance
446.5-493.5
orange orange green gold
3, 3, 5
3300000 ohms 5% tolerance (3.3 megaOhms)
3135000 - 3465000
green blue brown gold
5, 6, 1
560 ohms
532 - 588
Lesson 3 Exercises
Lesson 3 Exercises
3-Color LED Blink
Red and Green LED Blink
Push-Button LED Blink
From class Wednesday:
Slow LED Blink
Fast LED Blink
Resistor
Homework for Monday
Persuse Electronic Symbol page
Read through Chapter 2 in Exploring Arduino pp19-39
Read pages 1-36 in Tha Manga Giude to Electricity and post questions to blog.
Calculate how much it costs to use five common appliances that you use every day in your home for 24 hours. Please let me know the applicance, its wattage, amps and volts of each appliance and how you calculated cost. You will need to go to GRU or look at one of your electric bills.
My 2 roommates and I used 1301 kwh as a household in the month of July 2015.
This number (kwh) is obtained by multiplying power and usage time.
1200w x 2hrs = 2400wh = 2.4 kwh
if 1kwh costs 20 yen, running the tea kettle for 2 hours (2.4kwh) will cost 28 yen.
1. appliance, wattage, amps and volts
2. appliance, wattage, amps, and volts
How many of those appliances can you plug into one outlet without tripping a breaker? Please do this mathematically rather than through direct experience.
Take a break and watch this 1:30 video on electricity.
Principles of Electricity
http://www.youtube.com/watch?v=sQ9G2OL9ERo
What is the directional relationship between charge and current?
This is known as Ohm's Law.
DO this experiment or another of your choice if you would like to experience static electricy. http://www.sciencebob.com/experiments/staticroll.php Please document visually on blog
I had trouble figuring out which experiment you wanted us to do since the link was not working. I found an experiment using static electricity to bend water and one using static electricity to make a dancing ghost.
Read through Chapter 2 in Exploring Arduino pp19-39
Read pages 1-36 in Tha Manga Giude to Electricity and post questions to blog.
Calculate how much it costs to use five common appliances that you use every day in your home for 24 hours. Please let me know the applicance, its wattage, amps and volts of each appliance and how you calculated cost. You will need to go to GRU or look at one of your electric bills.
My 2 roommates and I used 1301 kwh as a household in the month of July 2015.
This number (kwh) is obtained by multiplying power and usage time.
1200w x 2hrs = 2400wh = 2.4 kwh
if 1kwh costs 20 yen, running the tea kettle for 2 hours (2.4kwh) will cost 28 yen.
1. appliance, wattage, amps and volts
2. appliance, wattage, amps, and volts
3. appliance, wattage, amps, and volts
4. appliance, wattage, amps, and volts
5. appliance, wattage, amps, and volts
How many of those appliances can you plug into one outlet without tripping a breaker? Please do this mathematically rather than through direct experience.
Take a break and watch this 1:30 video on electricity.
Principles of Electricity
http://www.youtube.com/watch?v=sQ9G2OL9ERo
What is the directional relationship between charge and current?
This is known as Ohm's Law.
DO this experiment or another of your choice if you would like to experience static electricy. http://www.sciencebob.com/experiments/staticroll.php Please document visually on blog
I had trouble figuring out which experiment you wanted us to do since the link was not working. I found an experiment using static electricity to bend water and one using static electricity to make a dancing ghost.
Sunday, August 30, 2015
Reading Responses 8.31.15
Manga Guide
- Voltage: difference in potential
- AMP: unit representing electrical current
- current: amount of electricity flowing through electrical line
- watt: unit representing electric power (consumed power)
- power (W) = voltage(V) x current(A)
- A = W/V
- Safety Breakers in the box thingy with switches are used to stop when there is too much electricity flowing through
- Rated Current: value determined for normal electrical outlet
Chapter 2 Arduino
- Anode is the positive side and cathode is the negative side.
- Resistance is how easy or how difficult the current can flow. this is determined by resistors that resist current. It can be like a pipe that lets a lot of water through (low resistance) or very little water (low Resistance)
- Ohm’s Law
- voltage difference in volts (V) = current in amps(I) x Resistance in ohms(R)
- Can be used to figure out which resistor value to use by solving for R
- R = V/I
- A common power rating for resistors is 1/8 of a watt (abbreviated as W, milliwatts as mW)
- Power in watts(P) = IV
Subscribe to:
Posts (Atom)