Matrices by Jessi Lessenberry

Matrices by Jessi Lessenberry https://padlet.com/jlesse8926/icjjym78vc95 Made with ♥ en-us 2018-05-23 14:03:45 UTC 2024-10-14 14:53:29 UTC hello@padlet.com https://padlet-assets.s3.amazonaws.com/icons/Growing.png Matrices jlesse8926 https://padlet.com/jlesse8926/icjjym78vc95/wish/263036655 A matrix in math is a rectangular array of numbers, symbols, or expressions arranged in rows and columns. ]]> 2018-05-23 14:07:34 UTC https://padlet.com/jlesse8926/icjjym78vc95/wish/263036655 Addition and Subtraction jlesse8926 https://padlet.com/jlesse8926/icjjym78vc95/wish/263037433 Addition and subtraction with matrices are done the same way. You take the first number in the first column, first row in the first matrix and then add or subtract it with the first number in the second matrix. Then just match up each number of each matrix and add or subtract them to together. ]]> 2018-05-23 14:09:22 UTC https://padlet.com/jlesse8926/icjjym78vc95/wish/263037433 Multiplication jlesse8926 https://padlet.com/jlesse8926/icjjym78vc95/wish/263039040 Multiplication is somewhat more tricky than addition and subtraction. You first start with the first row of the first matrix and the first column of the second matrix. Match the numbers together and multiply each together. You then add the product of each. The final product is your first number. To get the second number you use the first row of the first matrix and the SECOND column of the second matrix. Multiply and add those numbers just as before. You then drop down to the second row of the first matrix and multiply it with the first column of the second matrix, then add. Then multiply the second row of the first matrix and multiply it with the second column of the second matrix, then add. ]]> 2018-05-23 14:13:53 UTC https://padlet.com/jlesse8926/icjjym78vc95/wish/263039040 jlesse8926 https://padlet.com/jlesse8926/icjjym78vc95/wish/263049239 2018-05-23 14:41:01 UTC https://padlet.com/jlesse8926/icjjym78vc95/wish/263049239 Dimensions jlesse8926 https://padlet.com/jlesse8926/icjjym78vc95/wish/263049643 When adding or subtracting matrices they must be the same dimensions. For example, if one is 2 rows and 3 columns and the other is 2 rows and 4 columns it cannot be added or subtracted so it would be no solution. However if it is 2 rows and 3 columns for both matrices they are compatible and can be added or subtracted. You notate this as 2:3.

When multiplying matrices the last number of the first matrix and the first number of the second matrix must be the same otherwise it is no solution. ]]> 2018-05-23 14:42:01 UTC https://padlet.com/jlesse8926/icjjym78vc95/wish/263049643 Multiplication example jlesse8926 https://padlet.com/jlesse8926/icjjym78vc95/wish/263058698 2018-05-23 15:06:09 UTC https://padlet.com/jlesse8926/icjjym78vc95/wish/263058698 Addition example jlesse8926 https://padlet.com/jlesse8926/icjjym78vc95/wish/263060758 2018-05-23 15:11:13 UTC https://padlet.com/jlesse8926/icjjym78vc95/wish/263060758