Erratum
... ERRATUM F O R "COMPLEX FIBONACCI AND LUCAS NUMBERS, CONTINUED FRACTIONS, AND THE SQUARE R O O T O F THE GOLDEN R A T I O " The Fibonacci Quarterly 31.1 (1993):7-20 It has been pointed out to me by a correspondent who wished to remain anonymous that the number 185878941, which was printed in the "loo ...
... ERRATUM F O R "COMPLEX FIBONACCI AND LUCAS NUMBERS, CONTINUED FRACTIONS, AND THE SQUARE R O O T O F THE GOLDEN R A T I O " The Fibonacci Quarterly 31.1 (1993):7-20 It has been pointed out to me by a correspondent who wished to remain anonymous that the number 185878941, which was printed in the "loo ...
Pascal`s Triangle and Binomial Coefficients
... We number the rows of Pascal’s triangle starting at 0. The nth row has n + 1 entries, which we also number starting at 0. For example, Rule 1 tells us that the 0th and the nth entry of row n are both 1. ...
... We number the rows of Pascal’s triangle starting at 0. The nth row has n + 1 entries, which we also number starting at 0. For example, Rule 1 tells us that the 0th and the nth entry of row n are both 1. ...
rational exponent
... We cannot take the square root (or any even root) of a negative number. That is because you can never take two numbers (that are actually the same number) and multiply them together and get a negative number because when you multiply the same two numbers together then they are either both positive ...
... We cannot take the square root (or any even root) of a negative number. That is because you can never take two numbers (that are actually the same number) and multiply them together and get a negative number because when you multiply the same two numbers together then they are either both positive ...
Document
... Example 4 For each of the following (1) define a variable, and (2) express all unknown quantities in terms of that ...
... Example 4 For each of the following (1) define a variable, and (2) express all unknown quantities in terms of that ...
Slide 1
... 3 and write it down. • Step 2: multiply 5 x 20 and write it down. • Step 3: multiply 40 x 3 and write it down. • Step 4: multiply 40 x 20 and write it down. • Go to Step 5. ...
... 3 and write it down. • Step 2: multiply 5 x 20 and write it down. • Step 3: multiply 40 x 3 and write it down. • Step 4: multiply 40 x 20 and write it down. • Go to Step 5. ...
2-6 Exponents
... Prime factorization is writing a number using multiplication of only prime numbers. 12 can be written as 3x4 ,but 4 is not prime and can be written as 2x2, so the prime factorization of 12 = 3x2x2 This can be written 3x22. To write 330 using its prime factorization, start breaking it up into smaller ...
... Prime factorization is writing a number using multiplication of only prime numbers. 12 can be written as 3x4 ,but 4 is not prime and can be written as 2x2, so the prime factorization of 12 = 3x2x2 This can be written 3x22. To write 330 using its prime factorization, start breaking it up into smaller ...
Fractions (part 1) 2016
... e.g., by using visual fraction models and equations to represent the problem. For example, create a story context for (2/3) ÷ (3/4) and use a visual fraction model to show the quotient; use the relationship between multiplication and division to explain that (2/3) ÷ (3/4) = 8/9 because 3/4 of 8/9 is ...
... e.g., by using visual fraction models and equations to represent the problem. For example, create a story context for (2/3) ÷ (3/4) and use a visual fraction model to show the quotient; use the relationship between multiplication and division to explain that (2/3) ÷ (3/4) = 8/9 because 3/4 of 8/9 is ...
