Decimals, denominators, demons, calculators and connections: Len Sparrow and Paul Swan provide some practical activities for overcoming some fraction misconceptions using calculators specially designed for learners in primary years.It may be a coincidence and have no relevance at all but have you noticed that the word denominator denominator the bottom line of a fraction; the base population on which population rates such as birth and death rates are calculated. denominator starts with the same letters as the word demon only in a mixed up form. For many children the world of the denominator is also mixed up and brings forward the demons Demons See also devil; evil; ghosts; hell; spirits and spiritualism. ademonist one who denies the existence of the devil or demons. bogyism, bogeyism recognition of the existence of demons and goblins. of misunderstanding, confusion and fear, which remain with them for the rest of their lives. There is an array of reasons for the demons, as a quick survey of the research literature will show (see for example Booker, 1998; Newstead & Murray, 1998). In the areas of fraction, including decimal Meaning 10. The numbering system used by humans, which is based on 10 digits. In contrast, computers use binary numbers because it is easier to design electronic systems that can maintain two states rather than 10. fraction, teaching a variety of "quick fix" rules abound--to multiply mul·ti·ply v. 1. To increase the amount, number, or degree of. 2. To breed or propagate. by ten you add a nought; turn the second fraction upside Upside The potential dollar amount by which the market or a stock could rise. Notes: This is basically an educated guess on how high a stock could go in the near future. See also: Bull, Downside down and multiply. Generally, these lead to a long-term confusion, misapplication misapplication, n the use of incorrect or improper procedures while administering treatment; results from inadequacy in experience, training, skills, or knowledge. May also result from impairment or incompetence. and a limited view of mathematics as merely remembering formulae and rules. The calculator calculator or calculating machine, device for performing numerical computations; it may be mechanical, electromechanical, or electronic. The electronic computer is also a calculator but performs other functions as well. as a learning aid One of the ways to move beyond procedural teaching and learning into developing conceptual understanding is to use one of the familiar tools of society--the calculator. When used in sensible ways, as part of a broad teaching package, the calculator can allow children to enter a world of understanding and emerge into adult life without the demons. In our view, the calculator, when used in sensible ways (see Sparrow & Swan swan, common name for a large aquatic bird of both hemispheres, related to ducks and geese. It has a long, gracefully curved neck and an extremely long, convoluted trachea which makes possible its far-carrying calls. , 2000), has the potential to be a powerful teaching and learning aid, and something to challenge and excite (Excite.com, Irvington, NY, www.excite.com) One of the major search engines on the Web founded in 1995 and part of IAC Search & Media. Excite was acquired by Ask Jeeves, Inc. in 2004, which was acquired by IAC in 2005. See Web search engines. children in mathematics. For most children, using the calculator in mathematics teaching will generate motivation, interest and possibly reduce the chorus of groans that often accompany the announcement that it is time for mathematics. The calculator is not an electronic answer book for checking work, nor an easy option for cheating and no thinking. It is, in fact, if used in the ways we will suggest, a machine to engage children in thinking about mathematics. A justification for our use of calculators with children in mathematics classes mainly relates to their embodiment em·bod·i·ment n. 1. The act of embodying or the state of being embodied. 2. One that embodies: "The flag is the embodiment, not of sentiment, but of history" as a powerful learning and teaching tool, much in the way teachers might use MAB (Base 10 blocks) to develop mathematical understanding. By engaging with a calculator as part of their mathematics learning, children are learning about and using the tools of society as well as developing a deeper understanding of mathematics. They are learning with the aid of technology, becoming techno-literate (Sparrow & Swan, 2005) as well as developing number sense. In fact, it is often one of our aims to have children use a calculator to understand an aspect of mathematics in such a way that in future they will not have to use a calculator to perform the same piece of mathematics. A more function calculator for older primary children The idea of the model of the calculator developing in complexity and number of functions (see Figure 1) as children become older has been explored elsewhere (Kissane, 1997; Sparrow & Swan, 2000). [FIGURE 2 OMITTED] Planning with the calculator available Another reason to select a calculator is to consider its potential for supporting the particular learning you are planning to introduce. In the case of fractions with older primary children, the simple four-function calculator found in many classroom cupboards is limited in its scope. The more function TI-15 is better suited to supporting the planned tasks. It has functions that will present fractions in a "stacked Stacked is an American television sitcom that premiered on Fox on April 13, 2005. On May 18, 2006, Stacked was cancelled, leaving five episodes unaired in the United States. The last episode aired on January 11, 2006. format", simplify fractions, convert common fractions to decimal fractions and decimal fractions to common fractions, perform fraction calculations for addition, subtraction subtraction, fundamental operation of arithmetic; the inverse of addition. If a and b are real numbers (see number), then the number a−b is that number (called the difference) which when added to b (the subtractor) equals , multiplication multiplication, fundamental operation in arithmetic and algebra. Multiplication by a whole number can be interpreted as successive addition. For example, a number N multiplied by 3 is N + N + N. and division, work with mixed fractions and improper fractions improper fraction n. A fraction in which the numerator is larger than or equal to the denominator. improper fraction Noun , and "round" numbers to a range of decimal places decimal place n. The position of a digit to the right of a decimal point, usually identified by successive ascending ordinal numbers with the digit immediately to the right of the decimal point being first: . Calculator available activities for learning fraction ideas A question asked by many people relates to the fact that there is nothing left to teach if the calculator can perform all the calculations required of children in the older primary years. We are using the availability of a powerful calculator here to help children understand and develop a deeper concept of fraction ideas. We are helping children build conceptual understanding as well as understanding the procedures involved with calculations and fractions (both common and decimal notations decimal notation A representation of a fraction or other real number using the base ten and consisting of any of the digits 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, and a decimal point. ). In all the activities and games suggested below it is vitally important that children are required to explore ideas and explain their thinking and methods. Discussion at the end of the activity or even during it is essential to make explicit the mathematical purpose for the task and to help children connect this new knowledge to what they already know. Just giving children calculators has little or no potential for learning mathematics and may lead to the images of non-thinking children offered by opponents of calculator use in schools. Decimal fractions One of the problems many children have is with the over-generalisation of rules without fully understanding the particular ideas behind them. The use of the rule add a nought when multiplying mul·ti·ply 1 v. mul·ti·plied, mul·ti·ply·ing, mul·ti·plies v.tr. 1. To increase the amount, number, or degree of. 2. Mathematics To perform multiplication on. by ten is an example. For a number of years children will have added noughts to whole numbers and will have gained correct answers, for example 6 + 0 = 6 where the answer does not change from the original. Later, they will be given the add a nought rule in a different context of multiplying by ten. Here the rule application is in conflict with previous teaching. Now the answer does change from the original: 6 x 10 = 60; 72 x 10 = 720. As they move into the area of decimal numbers, the rule begins to break down. For example, when presented with 3.5 x 10, many children apply the add a nought rule and produce an incorrect answer of 3.50. Others add a nought to the whole number producing another incorrect answer of 30.5, while others add a nought to both numbers and generate 30.50 A quick rule given without understanding in the early years may result in misapplication later. Multiplying by ten with a calculator The calculator is used here to generate lots of data quickly. The important part of the task is the "maths noticing" with the help of the teacher or task partner. The use of a chart (see Figure 5) is important in this instant as it makes visible the key presses and the answers gained from using the calculator. It acts as a focus for the later discussion between children and teacher. On most calculators the numbers and calculations disappear and are not available for discussion as children press further keys. The TI-15 is unlike most calculators in the primary classroom as it has a larger display and a function that allows a "history" of key pushes to be viewed. Children can select whole numbers less than 100 in the Start number column. The number is multiplied mul·ti·ply 1 v. mul·ti·plied, mul·ti·ply·ing, mul·ti·plies v.tr. 1. To increase the amount, number, or degree of. 2. Mathematics To perform multiplication on. by 10 on the calculator and the Display number is recorded. The sequence is repeated at least five times. Children then start with decimal numbers less than one, for example 0.3 and follow the same sequence. The Display numbers may be in conflict with what they are expecting. This is a useful place for discussion about what is happening and what they are noticing. A "multiplier multiplier In economics, a numerical coefficient showing the effect of a change in one economic variable on another. One macroeconomic multiplier, the autonomous expenditures multiplier, relates the impact of a change in total national investment on the nation's total " (Booker, Bond, Sparrow & Swan, 2004) is a useful teaching aid to help children "see" the rule of moving digits one place to the left in relation to the decimal point (character) decimal point - "." ASCII character 46. Common names are: point; dot; ITU-T, USA: period; ITU-T: decimal point. Rare: radix point; UK: full stop; INTERCAL: spot. (Figure 6). The "nought" in this case acts as a placeholder place·hold·er n. 1. One who holds an office or place, especially: a. One who acts as a deputy or proxy. b. One who holds an appointed office in a government. 2. to show the correct number of place value columns in the answer. [FIGURE 6 OMITTED] Calculators can be used to test large numbers or numbers with lots of decimal places to see if the rule always works. The task can be developed to consider rules for multiplying by 100 and 1000 or for dividing by 10, 100 and 1000. Make it zero again Many children will have experienced using a calculator and the task Wipe out wipe tr.v. wiped, wip·ing, wipes 1. a. To subject to light rubbing or friction, as with a cloth or paper, in order to clean or dry. b. (Sparrow & Swan, 2001) or an activity with a similar name, where digits in a number are reduced to zero. The same format can be used with older children and decimal numbers. The task is also a useful way to practise prac·tise v. & n. Chiefly British Variant of practice. prac  tis·er n. the rule highlighted in the previous task.
The task starts with the children keying into their calculators a decimal number, such as 123.45. They are asked to complete the table as shown in Figure 7 (or record the display "history" on the calculator). This time the wipe out rules are changed to state that the digits may only be wiped out to zero in the "ones column". For the 3, subtracting 3 quite easily achieves this. The display number now becomes the start number 120.45. Children now have to "move" a digit to the "ones column" for it to be wiped out. If the number is multiplied by 10 the 4 will "move" to the ones column 120.45 x 10 = 1204.5 The task continues by applying the multiply by 10 or divide by 10 rules to "move" the digits to the "ones column". Children could also be challenged to apply the multiply and divide by 100 or 1000 rules to "move" the digits if the teacher does not allow the use of multiply or divide by ten rule. Fraction notations Remainders, common fractions and decimal fractions Often children mistake a remainder after a division operation with the decimal fraction, for example remainder 3 is often translated as point 3 or one third and vice versa VICE VERSA. On the contrary; on opposite sides. . The Int / key and the / key (see Figure 3) can form part of a task to help children overcome this misconception mis·con·cep·tion n. A mistaken thought, idea, or notion; a misunderstanding: had many misconceptions about the new tax program. . [FIGURE 3 OMITTED] It is also possible to set the calculator to offer a fraction answer to the same question. Direct children to the mode key and then select the n/d option in the display. Key in 27 / 6 Enter and the display will show 4 and 5 tenths. Simplify if you wish via the Simp and Enter keys (see Figure 3). Discussion and comment can be focussed on the similarities and differences in the answer displays. For some children it is possible to connect the remainder with the divisor divisor - A quantity that evenly divides another quantity. Unless otherwise stated, use of this term implies that the quantities involved are integers. (For non-integers, the more general term factor may be more appropriate.) Example: 3 is a divisor of 15. and the fraction answer. For example, 4 r 3 can also be written as 4 and 3/6. This can be connected via equivalent fractions to a half (3/6 = 1/2). The same discussion can be held with the second example in the chart. Fractions to decimals and back again The TI-15 calculator is a useful addition to teaching materials for developing fraction knowledge and understanding as it has a number of functions such as the ability to fix the number of decimal places in a number, for example the keys Fix and 0.01 will round the result to the nearest hundredth. The calculator also has a function to convert common fractions to decimal fractions and vice versa. Ask children to press Fix and set the calculator to 0.01 by pressing the named key. They then follow this by keying 1.2345 and Enter and recording the display answer of 1.24. After discussing the answer, set children the task of finding other decimal numbers that round to 1.24. The calculator's ability to convert decimals to fractions quickly allows for many examples to be generated once children are shown how to operate the function. It is possible to help children connect frequently occurring decimals and fractions as they compile To translate a program written in a high-level programming language into machine language. See compiler. a table. Such connections are useful for mental computation Computation is a general term for any type of information processing that can be represented mathematically. This includes phenomena ranging from simple calculations to human thinking. as they allow children to switch to whichever form is more effective for the calculation. Later connections to commonly used percents is also helpful. Decimals may be converted to fractions on the TI- 15 by following these keying steps: .5 Enter F-D Further fraction families can be explored, for example thirds, fifths and eighths. If the fraction column is filled, children will have to reverse the conversion process by entering the fraction first and then using the F-D conversion key. Some fractions, for example one third, will present children with recurring decimals re·cur·ring decimal n. See repeating decimal. recurring decimal Noun a rational number that contains a pattern of digits repeated indefinitely after the decimal point: . This is a useful area for discussion of recurring re·cur intr.v. re·curred, re·cur·ring, re·curs 1. To happen, come up, or show up again or repeatedly. 2. To return to one's attention or memory. 3. To return in thought or discourse. but also of the limitations and features of the calculator. For example, 1 / 3 (a third) provides a decimal fraction of 0.3333. If this answer is multiplied by 3 the starting number of 1 should be reached. It does on the TI-15 but does it on other calculators? More able children in the class can be asked to find more examples of recurring fractions, for example one ninth. The availability of the calculator makes the generation of examples for this task easy for the children. Conclusions The calculator used as a learning tool can provide children with challenging insights into understanding fractions and decimals. As part of a teaching package for learning about decimal and fraction ideas, the TI-15 model of calculator can add motivation, understanding and a real-world relevance to an often misunderstood mis·un·der·stood v. Past tense and past participle of misunderstand. adj. 1. Incorrectly understood or interpreted. 2. area of mathematics. With appropriate reflection and thinking, it may be possible to remove the demons from denominators for many children. References Booker, G. (1998). Children's construction of initial fraction concepts. In A. Oliver & K. Newstead (Eds), Proceedings of the 22nd conference of the International Group for the Psychology of Mathematics Education, Vol. 2, (pp.128-135). University of Stellenbosch, South Africa South Africa, Afrikaans Suid-Afrika, officially Republic of South Africa, republic (2005 est. pop. 44,344,000), 471,442 sq mi (1,221,037 sq km), S Africa. . Booker, G., Bond, D., Sparrow, L. & Swan, P. (2004). Teaching Primary Mathematics (3rd edition). Frenchs Forest, NSW NSW New South Wales Noun 1. NSW - the agency that provides units to conduct unconventional and counter-guerilla warfare Naval Special Warfare : Pearson Education Pearson Education is an international publisher of textbooks and other educational material, such as multimedia learning tools. Pearson Education is part of Pearson PLC. It is headquartered in Upper Saddle River, New Jersey. . Kissane, B. (1997). Growing up with a calculator. Australian Primary Mathematics Classroom, 2(4), 10-14. Newstead, K. & Murray, H. (1998). Young children's understanding of fractions. In A. Oliver & K. Newstead (Eds), Proceedings of the 22nd conference of the International Group for the Psychology of Mathematics Education, Vol. 3 (pp. 295-302). University of Stellenbosch, South Africa. Sparrow, L. & Swan, P. (2000). Calculators and number sense: The way to go? Paper presented at the 9th International Congress of Mathematics Education, Tokyo, Japan. Sparrow, L. & Swan, P. (2001). Learning Math with a Calculator. Sausalito, California Sausalito is a city in the San Francisco Bay Area situated in Marin County, California, United States. The population was 7,330 as of the year 2000 census. Viña del Mar, Chile, home to "Sausalito" stadium and "Sausalito" lagoon, is a sister city of Sausalito, which features a : Math Solutions Publications. Sparrow, L. & Swan, P. (2005). Techno-ignorant, techno-dependent or techno-literate: A case for sensible calculator use. In A. McIntosh & L. Sparrow (Eds), Beyond Written Computation (pp. 53-63). Perth: MASTEC. Len Sparrow Curtin University, WA <l.sparrow@curtin.edu.au> Paul Swan Edith Cowan Edith Dircksey Cowan (née Brown), OBE (August 2 1861–June 9 1932) was an Australian politician, social campaigner and the first woman elected as a representative in an Australian parliament. University, WA <p.swan@ecu.edu.au>
Figure 1. The growth of calculator function complexity.
Growth in calculator functions
Growth in age
Younger children Older primary children Secondary school students
Four function More function Multi-function
calculator calculator calculator
TI-108 TI-15 TI-83
Figure 4. Selecting the model of calculator.
Decimal fractions Common fractions
Four function OK but rather limited in Very limited use
use
TI-108 The more functions will Has extended fraction
allow greater scope for functions that can be
tasks used to help children's
learning
Figure 5. Multiplying by ten recording table.
Start number Multiply by 10 Display number Comment
45 x10 450
Figure 7. Wipe out recording chart.
Start number Operation Display number Comment
123.45 -3 120.45 Wipes out the 3
120.45
Figure 8. Remainders, decimals and fractions chart.
Answer with Answer
Integer divide with Answer with Comment
Calculation Int / Divide / Divide fraction
27 / 6 4 r 3 4.5 4 5/10 4 1/2
46 / 4 11 r 2 11.5 11 5/10 11 1/2
Figure 9. Decimal to fraction table.
Decimal Fraction Comment
0.5 5 tenths or 1 half
0.25 25 hundredths or 1 fourth
0.75 75 hundredths or 3 fourths
Figure 10. Fraction decimal connections.
Decimal Fraction Comment
1 third
0.125
6 eighths
|
|
||||||||||||||||||
Printer friendly
Cite/link
Email
Feedback
Reader Opinion