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Friday, July 3, 2009
Sample of a Web-Search for MATH-030 Fundamentals of Mathematics
Often in the classroom it is the desire of the instructor to supplement the core curriculum with interesting information relative to the subject being taught, but not relevant to the core competencies required by the state. Since classroom time is such a commodity at the college level, this supplemental material must be delivered in a non-classroom platform. The Web-Search offers this platform and allows the instructor to offer supplemental information and assessment to a variety of topics. This is an example of a web-search for the most basic course we offer at the community college level. I do 1 of these for each of my developmental courses.
The internet also offers me a great forum outside of class to then discuss the web-search once students have been given time to complete it. We will be using dimdim.com for an online meeting space as it is free for up to 20 viewers. Dimdim.com will also allow me to add 5 more users up to 100 viewers for free for anyone I lead to the site as well, so I anticipate me expanding my use of this awesome free service. As an online meeting host I will be at my home PC while students are at remote PCs viewing my screen as I lead them through the web-search. I am piloting this project this summer, so I will blog an update as to how it turned out. Stay tuned!
MATH 030 – Fundamentals of Mathematics
Name __________________________
Web-Search Assignment
Directions: Browse the Internet to answer the following questions.
1. A website that is free and provides lots of information is www.math.com. It has quizzes, practice problems, and activities for every skill you are required to master in the developmental MAT courses. Visit the website and perform the following tasks.
a) Under the tab marked Homework Help, click on the Basic Math link in the Select Subject column. Click the link for Fraction-Decimal Conversion. According to the information found here, what would be the fraction equivalent for the repeating decimal 0.000267426742674…? Write the rational number in the space below.
b) Under the tab marked Practice, under the subject marked Hot Topics, click the link for Fractions and take the Unit Quiz. Write the problems and your responses in the space provided.
1. 5.
2. 6.
3. 7.
4. 8.
c) Under the tab marked Games, scroll down the page and click on the link for The Tower of Hanoi. Can you play the game in only 7 moves? Write the number of seconds it took to complete this task in the space below.
2. One skill you are required to learn in this course is how to determine the “Least Common Multiple” of 2 or 3 different numbers. The Internet has several “tools” which allow you to find the “Least Common Multiple” of 2 or 3 numbers. Visit the web-site www.mathisfun.com. In the “Search” box, type the letters “LCM” and press “Enter”. Use the “tool” provided to answer the following questions.
a) What is Least Common Multiple of 56, 78, and 23? ___________________
b) What is the Least Common Multiple of 14 and 48? ___________________
In the “Search” box, type the letters “GCF” and press “Enter”. Use the “tool” provided to answer the following questions.
c) What is Greatest Common Factor of 56, 78, and 23? _____________________
d) What is the Greatest Common Factor of 14 and 48? ___________________
3. Who was Euclid? List 4 known non- math related facts about the historical figure known as Euclid. List any websites used to find your information.
a)
b)
c)
d)
Web Site(s) Used:
4. A famous algorithm was named after Euclid called the Euclidean Algorithm. It has been said that the Euclidean algorithm has many theoretical and practical applications. Find the Wikipedia article titled “Euclidean Algorithm” and list four of these uses in the spaces below.
a)
b)
c)
d)
5. Use your favorite search-engine (Google, Yahoo, Yahooligans, etc.) to determine the definition of an “irrational number”. Write the definition you find in the space below. Provide the website used.
a) An irrational number is …..
b) Provide 6 examples of irrational numbers.
1) 2) 3) 4) 5) 6)
Web Site Used:
6. Who was Leonardo Fibonacci? List 4 known non-math related facts about the historical figure known as Leonardo Fibonacci. List any websites used to find your information.
1.
2.
3.
4.
Web Site(s) Used:
7. A “sequence” is a “series”, or list, of numbers that are in some particular order. Using your favorite search engine, search “Fibonacci Sequence”, and answer the following questions.
a) Provide the first 20 entries of the Fibonacci Sequence.
b) In your own words, explain what is happening in the Fibonacci Sequence.
c) List five things found in nature said to exhibit the Fibonacci Sequence. Provide a short explanation in the spaces provided.
1.
2.
3.
4.
5.
Web Site(s) Used:
Sample of an Ancient Number System and Place Value Lesson
I also teach a course for elementary educators titled Integrated Mathematics. This course is taught over two semesters. I teach the portion of the course that addresses number theory. We do a lesson over place value and ancient number systems in this course, and this a worksheet I use to introduce some of the concepts associated with these topics. I also teach this lesson to my Fundamentals of Mathematics course and they do fine with it. Of course the changing bases is too challenging for my MAT 030 students, so it is a lighter version of this for them.
MAT 155 Integrated Mathematics Name______________
Ancient Number Systems/Place Value/Rounding
The Egyptians
The Ancient Egyptians would write number quantities using symbols or pictures. In the spaces to the right, draw the symbol that represents each quantity.
| Egyptian Number Pictographs | ||
| 1 = | | Staff ____ |
| 10 = | | heel bone ____ |
| 100 = | | coil of rope ____ |
| 1000 = | | lotus flower ____ |
| 10,000 = | | pointing finger ____ |
| 100,000 = | | Tadpole ____ |
| 1,000,000 = | | astonished man ____ |
Write the number 1324 in Egyptian Number Pictographs ___________________________
Write the number 820 in Egyptian Number Pictographs ____________________________
Write the number 231 in Egyptian Number Pictographs ____________________________
What would the Egyptian Number look like if we were to combine 820 and 231 using Egyptian Number Pictographs?
____________________________________________________
The Greeks
The original Greek alphabet consisted of 27 letters and was written from the left to the right. These 27 letters make up the main 27 symbols used in their numbering system. Later special symbols, which were used only for mathematics vau, koppa, and sampi, became extinct. The New Greek alphabet nowadays uses only 24 letters.
Write the number 820 using the Greek Number System ____________________________
Write 231 using the Greek Number System _____________________________________
Try to combine the numbers 820 and 231 using these Greek symbols. How can this be done?
The Mayans
The number systems discussed so far still lacked an important part of the number system we use today. They lacked a place-value system. The symbols used in the Egyptian and Greek number systems did not need to be in any particular order. If a person knew what the symbols meant it would not matter what order they were in.
Some ancient cultures who attempted to use a place-value system were the ancient Babylonians and the Mayan cultures. Both of these cultures used place-value systems but they each used a different “base” than we do.
In the table below are represented some Mayan numbers. The left column gives the base with place value for each position of the Mayan number and its multiplier. Remember the numbers are read from bottom to top. Below each Mayan number is its decimal equivalent. A flat line represents the value 5, and a dot represents the value 1.
| 203 | 8,000 | | |||||
| 202 | 400 | | | | | ||
| 201 | 20 | | | | | | |
| 200 | 1 | | | | | | |
| Base | Multiplier | 20 | 40 | 445 | 508 | 953 | 30,414 |
![clip_image011[1]](https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjxWBwVxlVUxe0gvgte6krsSqZq4LRGobJ0aBW5Z8mQ1wmSa4Swpv4FR7MhCYua7jL6ofAztCyPY5eZ8Cfb6TTMI_I3A3v5dOWbywnaFx5ZZYBKZru-7KM6HAIb5SVeZMJsSiR58ADn2sg/s1600-h/clip_image011%5B1%5D%5B2%5D.gif "clip_image011[1]"){kind=small}
![clip_image011[2]](https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEiSmJCPVmilFe4hsXzxX1W-9_zzY1Egjj6sOoyYrKmlWJaxDgV1pZL8UlmQff07tGZXjEGomw0ASmSf2HxvuZTdmMzP58eA_fX57Ukfi9-0PeakYqyXg_lmAshYxxfjr63tlb2efuC2FFo/s1600-h/clip_image011%5B2%5D%5B2%5D.gif "clip_image011[2]"){kind=small}
![clip_image012[1]](https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEj4PY22-LNV4N6ZY265L-etWXVk239efijgW340D0HgRZnmum-ngCEfUqvA7O8Xe25dJNKVrIbYp5MHhSuD4IDLH_5rUHbNsBeGF74XvMHHUj8ZTdoUwRAWHf3a5tISRw3MVQfZQodwqrs/s1600-h/clip_image012%5B1%5D%5B2%5D.gif "clip_image012[1]"){kind=small}
![clip_image012[2]](https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEh1_LKHGG2y9NQU3EkYheIlhuZyiqbmin2FE2yl8_46d6XuqJxzfuKyi4o549kIu4RvhoVcQMHSnJiPN29uiRBq5swVIXSjfltJG8wqu_QkhFK_muuQECGVglXBiVFZLmZouQBMQBHc9PA/s1600-h/clip_image012%5B2%5D%5B2%5D.gif "clip_image012[2]"){kind=small}
![clip_image016[1]](https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhUnWojsLY9Fi0lwyZPeLhM_BIpD_KakLJ-X5uSJrrpryJjEUIW4j-g06iObwSZ5UYJDeeeiTE2is8VaGWoEDg1N_6LJnTVHUxdrif21JygMmQmjQ6btOW604d6J1NXnRU4zEXCGBtHY_0/s1600-h/clip_image016%5B1%5D%5B2%5D.gif "clip_image016[1]"){kind=small}
![clip_image016[2]](https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgiGVZ2qkRgUv-WRZvmSK2xOCw9S6WAziPIROv7UFNGOmh_T3yj_H-njM_twWwtWjqf7G0mPBiqO5IPpjhmXoRcZTNrdsvUCiStczW3VFi3C37fPml9lIRUGT9JXHvRc8ob8saOFeyOSYU/s1600-h/clip_image016%5B2%5D%5B2%5D.gif "clip_image016[2]"){kind=small}
![clip_image014[1]](https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEiPDRFO8LEV5nsp15PYXUIiiIp4bZDVE9zlQaMgUkNHdvmsEN1FammVt-D8bP3IYetQ7CJ5L34U-O2hij5J4GQFJw1_TRWI8dHELfJRQiMte1XmSsV8YkINtNXQL5gBBMPtmjHjw-GGn5k/s1600-h/clip_image014%5B1%5D%5B2%5D.gif "clip_image014[1]"){kind=small}
It has been suggested that counters may have been used, such as grain or pebbles, to represent the units and a short stick or bean pod to represent the fives. Through this system the bars and dots could be easily added together as opposed to such number systems as the Romans but, unfortunately, nothing of this form of notation has remained except the number system that relates to the Mayan calendar.
The 360 day calendar also came from the Mayan's who actually used base 18 when dealing with the calendar. Each month contained 20 days with 18 months to a year. This left five days at the end of the year which was a month in itself that was filled with danger and bad luck.
Exercise: Try to write the number 456 using Mayan number symbols.
The Babylonians
The ancient Babylonian number system worked the closest to the way ours works, but instead of a base-10 system like ours, the ancient Babylonians used a base-60 number system. The Mayans used a base-20 system. The ancient Babylonians would understand the number:
37 25 41
What would this Babylonian number mean to us today?
….0x(604) + 0x(603) + 37x(602) + 25x(601) + 41x(600)
So, (37 x 3600) + (25 x 60) + (41x1) = 133200 + 1500 + 41 = 134,741.
The ancient Babylonians only had two symbols that were used to represent all numbers possible. It was the idea of having place value that allowed this system to work.
The symbol for a single unit is a staff with a wedge at the top. _______
The symbol for a collection of 10 units is a wedge shape on its side. _______
So the number 32 would look like…________
They would often “bunch” these unit symbols together instead of writing the symbols side-by-side.
So the number 58 might look like…____________
What would the value 125 look like in ancient Babylonian number symbols?
The Romans
The Romans also used symbols to represent numerical values. Their system placed an importance on symbols and their position, but not place-value like the Babylonians or the Mayans.
The symbols would read left-to-right with the rule of addition between each symbol.
They allowed for up to “one” symbol of lesser value be written to the left of a larger value that meant subtract the lesser from the larger.
For example, LXIII means ___________
Where XLIII means ____________
Write the value 859 in Roman numerals in the space below.
How does our number system really work?
The number system we use today has only been in use the way we understand it for the last 500 years or so. It has gone through several changes over time while developing. Several cultures contributed to its evolution giving us its present state.
Hindu-Arabic numerals are now used in most of the countries of the world. It took more than 1,500 years for the numerals to develop their modern shape. People who write in the Arabic alphabet still use an older form of Hindu-Arabic numerals called East Arabic numerals.
Exercise: Write the number 8,743 in each system discussed using the appropriate symbols. Be sure to label each response accordingly.
For which ancient number systems did you find this exercise more or less challenging? Explain why or why not.
Of the number systems introduced so far, which number system do you feel you could best adapt to if they were the only ones available? Explain your reasoning for your response.
The Modern Number System
In our modern base-10 number system there are 10 “digits” to choose from 0-9. Using our modern number system, label the following slots with the corresponding place-value name for that slot.
3 5 , 5 7 3 , 0 9 3
We use estimation, or “rounding”, to talk about numbers in less detail. For example, the number above is about 36, 000, 000. We can “round” numbers to different place-values depending on how accurate we feel we need to be. Rounding the number above to 36, 000, 000 is an example of rounding to the millions place.
Round the number above to the following place values.
Ten-Millions Place _________________________________________
Millions Place _____________________________________________
Hundred-Thousands Place ___________________________________
Ten-Thousands Place _______________________________________
Thousands Place ___________________________________________
Hundreds Place ____________________________________________
Tens Place ________________________________________________
Ones Place _______________________________________________
The number 35,573,093 is written in what is called “standard form”. The meaning of this number is 30,000,000 + 5,000,000 + 500,000 + 70,000 + 3,000 + 90 + 3. A number written in this form is written in what is called “expanded form”.
Complete the following table.
| Standard Form | Expanded Form |
| 456 | |
| 8745 | |
| 6,000 + 40 + 3 | |
| 43, 020 | |
| 50,000 + 400 + 30 + 7 |
Answer the following.
1. Write a number in standard form that has a “7” in the “tens place” and a “4” in the “hundred-thousands place”.
2. Write a number that has a “5” in the ten-millions place, a “3” in the hundreds place, and a “9” in the ten-thousands place.
3. Write a number that contains 4 digits and has a “1” in the tens place.
Monday, June 29, 2009
Sample Vocabulary Quiz for MATH 060 – Pre-Algebra
MATH 060 Pre-Algebra Name ________________________
Vocabulary Quiz #2 Date _________________________
Match the following statements together with their best fit.
| 1. Ratio _____ 2. Proportion _____ 3. Unit Rate _____ 4. Similar Triangles _____ 5. Unit Price _____ 6. Percent _____ 7. Percentage _____ 8. Metric Measures _____ 9. Gram _____ 10. Capacity _____ 11. Kilo _____ 12. Liter _____ 13. Hecta _____ 14. Meter _____ 15. Deci _____ 16. Polygon _____ 17. Scalene _____ 18. Deca _____ 19. Centi _____ 20. Isosceles _____ 21. Milli _____ 22. Quadrilateral _____ 23. Regular Polygon _____ 24. Perimeter _____ 25. Dimension _____ | A. A four-sided closed figure. B. The metric measure for volume. C. Two triangles with the same angle measures but with different side lengths. D. If something weighs 40 grams, then it also weighs “4” of these types of grams. E. A closed figure where all sides of the figure are the same length and all interior angles are the same measure. F. Any closed figure with three or more sides. G. The metric measure for weight. H. The “450”in the notation 450% I. A ratio in which the denominator is 100. J. 2:3, K. Bananas cost $0.49 per pound. L. If something contains 500 liters, then it also contains “5” of these types of liters. M. The metric measure for distance. N. liter, meter, gram O. All sides different lengths P. A triangle with two sides of equal length. Q. If R. If something is 2000 meters away, then it is also “2” of these types of meters away. S. The distance around a closed figure. T. If a person is 2 meters tall, then they are also “200” of these types of meters tall. U. The visible, linear measure of an object. V. If something holds 60 liters of water, it also holds “600” of these types of liters of water. W. The amount a container can hold. X. If something weighs 14 grams, then it also weighs 14,000 of these types of grams. Y. There are 100 U.S. Senators and there are 50 states, so there are 2 U.S. Senators for each state. |
Sample 5-Minute Speed Drill for MATH 090 – Introductory Algebra
MATH 090 – Introductory Algebra
Name__________________
Speed Drill #3
Date_________________
1. 
3. 
5. 
7. 
9. 
11. 
13. 
Sample Web-Search from MATH 030 – Fundamentals of Mathematics
MATH 030 – Fundamentals of Mathematics
Name __________________________
Web-Search Assignment
Directions: Browse the Internet to answer the following questions.
1. A website that is free and provides lots of information is www.math.com. It has quizzes, practice problems, and activities for every skill you are required to master in the developmental MAT courses. Visit the website and perform the following tasks.
a) Under the tab marked Homework Help, click on the Basic Math link in the Select Subject column. Click the link for Fraction-Decimal Conversion. According to the information found here, what would be the fraction equivalent for the repeating decimal 0.000267426742674…? Write the rational number in the space below.
b) Under the tab marked Practice, under the subject marked Hot Topics, click the link for Fractions and take the Unit Quiz. Write the problems and your responses in the space provided.
1. 5.
2. 6.
3. 7.
4. 8.
c) Under the tab marked Games, scroll down the page and click on the link for The Tower of Hanoi. Can you play the game in only 7 moves? Write the number of seconds it took to complete this task in the space below.
2. One skill you are required to learn in this course is how to determine the “Least Common Multiple” of 2 or 3 different numbers. The Internet has several “tools” which allow you to find the “Least Common Multiple” of 2 or 3 numbers. Visit the web-site www.mathisfun.com. In the “Search” box, type the letters “LCM” and press “Enter”. Use the “tool” provided to answer the following questions.
a) What is Least Common Multiple of 56, 78, and 23? ___________________
b) What is the Least Common Multiple of 14 and 48? ___________________
In the “Search” box, type the letters “GCF” and press “Enter”. Use the “tool” provided to answer the following questions.
c) What is Greatest Common Factor of 56, 78, and 23? _____________________
d) What is the Greatest Common Factor of 14 and 48? ___________________
3. Who was Euclid? List 4 known non- math related facts about the historical figure known as Euclid. List any websites used to find your information.
a)
b)
c)
d)
Web Site(s) Used:
4. A famous algorithm was named after Euclid called the Euclidean Algorithm. It has been said that the Euclidean algorithm has many theoretical and practical applications. Find the Wikipedia article titled “Euclidean Algorithm” and list four of these uses in the spaces below.
a)
b)
c)
d)
5. Use your favorite search-engine (Google, Yahoo, Yahooligans, etc.) to determine the definition of an “irrational number”. Write the definition you find in the space below. Provide the website used.
a) An irrational number is …..
b) Provide 6 examples of irrational numbers.
1) 2) 3) 4) 5) 6)
Web Site Used:
6. Who was Leonardo Fibonacci? List 4 known non-math related facts about the historical figure known as Leonardo Fibonacci. List any websites used to find your information.
1.
2.
3.
4.
Web Site(s) Used:
7. A “sequence” is a “series”, or list, of numbers that are in some particular order. Using your favorite search engine, search “Fibonacci Sequence”, and answer the following questions.
a) Provide the first 20 entries of the Fibonacci Sequence.
b) In your own words, explain what is happening in the Fibonacci Sequence.
c) List five things found in nature said to exhibit the Fibonacci Sequence. Provide a short explanation in the spaces provided.
1.
2.
3.
4.
5.
Web Site(s) Used:
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