-- card: 51741 from stack: in -- bmap block id: 52400 -- flags: 0000 -- background id: 2665 -- name: -- part 1 (button) -- low flags: 00 -- high flags: 8003 -- rect: left=289 top=317 right=340 bottom=443 -- title width / last selected line: 0 -- icon id / first selected line: 0 / 0 -- text alignment: 1 -- font id: 0 -- text size: 12 -- style flags: 0 -- line height: 16 -- part name: NORMAL DISTRIBUTION ----- HyperTalk script ----- on mouseUp go to card id 97949 end mouseUp -- part 2 (button) -- low flags: 00 -- high flags: 8003 -- rect: left=205 top=315 right=337 bottom=256 -- title width / last selected line: 0 -- icon id / first selected line: 0 / 0 -- text alignment: 1 -- font id: 0 -- text size: 12 -- style flags: 0 -- line height: 16 -- part name: NEXT ----- HyperTalk script ----- on mouseUp go to next card end mouseUp -- part 3 (button) -- low flags: 00 -- high flags: 8003 -- rect: left=149 top=314 right=337 bottom=199 -- title width / last selected line: 0 -- icon id / first selected line: 0 / 0 -- text alignment: 1 -- font id: 0 -- text size: 12 -- style flags: 0 -- line height: 16 -- part name: PREV. ----- HyperTalk script ----- on mouseUp go back end mouseUp -- part contents for background part 1 ----- text ----- QUANT. INHERITANCE -- part contents for background part 2 ----- text ----- If the ratio is graphed, it assumes the shape of a binomial distribution which is characteristic of quantitative distributions. The more independently segregating quantitative genes involved in the cross, the smoother the curve. If each dominant gene in the example at the right produced 1 inch of height in the height of a plant and if the minimum height in the absence of any such genes was 4", then the spread of height in the cross would be: 1 plant 8" tall <- 4 dominants 4 plants 7" tall <- 3 dominants 6 plants 6" tall <- 2 dominants 4 plants 5" tall <- 1 dominant 1 plant 4" tall <- No dominants Flip to the next card. -- part contents for background part 8 ----- text ----- 117