div class=ts-pagebutton class=gotoPage data-page=1Page 1button div class=ts-imageimg data-url=cpb-us-e1-polynomial-application-problems-diamonds-the-weight-of-an-ideal-round-cuthtmlpage=1 data-page=1 class=ts-thumb lazyload alt=Page 1: cpb-us-e1wpmucdncom · Polynomial Application Problems DIAMONDS The weight of an ideal round-cut diamond can be modeled by IV = 00071d3 - 00908 + 048d where w is the diamonds loading=lazy src=data:imagegifbase64iVBORw0KGgoAAAANSUhEUgAAAAIAAAACCAQAAADYv8WvAAAAD0lEQVR42mP8X8AwAgiABKBAv+vAXklAAAAAElFTkSuQmCC data-src=https:reader033vdocumentsmxreader033viewer20220605045f1da1ec808f22586a6e1f0bhtml5thumbnails1jpg width=140 height=200 divdivdiv class=ts-pagebutton class=gotoPage data-page=2Page 2button div class=ts-imageimg data-url=cpb-us-e1-polynomial-application-problems-diamonds-the-weight-of-an-ideal-round-cuthtmlpage=2 data-page=2 class=ts-thumb lazyload alt=Page 2: cpb-us-e1wpmucdncom · Polynomial Application Problems DIAMONDS The weight of an ideal round-cut diamond can be modeled by IV = 00071d3 - 00908 + 048d where w is the diamonds loading=lazy src=data:imagegifbase64iVBORw0KGgoAAAANSUhEUgAAAAIAAAACCAQAAADYv8WvAAAAD0lEQVR42mP8X8AwAgiABKBAv+vAXklAAAAAElFTkSuQmCC data-src=https:reader033vdocumentsmxreader033viewer20220605045f1da1ec808f22586a6e1f0bhtml5thumbnails2jpg width=140 height=200 divdivdiv class=ts-pagebutton class=gotoPage data-page=3Page 3button div class=ts-imageimg data-url=cpb-us-e1-polynomial-application-problems-diamonds-the-weight-of-an-ideal-round-cuthtmlpage=3 data-page=3 class=ts-thumb lazyload alt=Page 3: cpb-us-e1wpmucdncom · Polynomial Application Problems DIAMONDS The weight of an ideal round-cut diamond can be modeled by IV = 00071d3 - 00908 + 048d where w is the diamonds loading=lazy src=data:imagegifbase64iVBORw0KGgoAAAANSUhEUgAAAAIAAAACCAQAAADYv8WvAAAAD0lEQVR42mP8X8AwAgiABKBAv+vAXklAAAAAElFTkSuQmCC data-src=https:reader033vdocumentsmxreader033viewer20220605045f1da1ec808f22586a6e1f0bhtml5thumbnails3jpg width=140 height=200 divdivdiv class=ts-pagebutton class=gotoPage data-page=4Page 4button div class=ts-imageimg data-url=cpb-us-e1-polynomial-application-problems-diamonds-the-weight-of-an-ideal-round-cuthtmlpage=4 data-page=4 class=ts-thumb lazyload alt=Page 4: cpb-us-e1wpmucdncom · Polynomial Application Problems DIAMONDS The weight of an ideal round-cut diamond can be modeled by IV = 00071d3 - 00908 + 048d where w is the diamonds loading=lazy src=data:imagegifbase64iVBORw0KGgoAAAANSUhEUgAAAAIAAAACCAQAAADYv8WvAAAAD0lEQVR42mP8X8AwAgiABKBAv+vAXklAAAAAElFTkSuQmCC data-src=https:reader033vdocumentsmxreader033viewer20220605045f1da1ec808f22586a6e1f0bhtml5thumbnails4jpg width=140 height=200 divdivdiv class=ts-pagebutton class=gotoPage data-page=5Page 5button div class=ts-imageimg data-url=cpb-us-e1-polynomial-application-problems-diamonds-the-weight-of-an-ideal-round-cuthtmlpage=5 data-page=5 class=ts-thumb lazyload alt=Page 5: cpb-us-e1wpmucdncom · Polynomial Application Problems DIAMONDS The weight of an ideal round-cut diamond can be modeled by IV = 00071d3 - 00908 + 048d where w is the diamonds loading=lazy src=data:imagegifbase64iVBORw0KGgoAAAANSUhEUgAAAAIAAAACCAQAAADYv8WvAAAAD0lEQVR42mP8X8AwAgiABKBAv+vAXklAAAAAElFTkSuQmCC data-src=https:reader033vdocumentsmxreader033viewer20220605045f1da1ec808f22586a6e1f0bhtml5thumbnails5jpg width=140 height=200 divdivdiv class=ts-pagebutton class=gotoPage data-page=6Page 6button div class=ts-imageimg data-url=cpb-us-e1-polynomial-application-problems-diamonds-the-weight-of-an-ideal-round-cuthtmlpage=6 data-page=6 class=ts-thumb lazyload alt=Page 6: cpb-us-e1wpmucdncom · Polynomial Application Problems DIAMONDS The weight of an ideal round-cut diamond can be modeled by IV = 00071d3 - 00908 + 048d where w is the diamonds loading=lazy src=data:imagegifbase64iVBORw0KGgoAAAANSUhEUgAAAAIAAAACCAQAAADYv8WvAAAAD0lEQVR42mP8X8AwAgiABKBAv+vAXklAAAAAElFTkSuQmCC data-src=https:reader033vdocumentsmxreader033viewer20220605045f1da1ec808f22586a6e1f0bhtml5thumbnails6jpg width=140 height=200 divdivdiv class=ts-pagebutton class=gotoPage data-page=7Page 7button div class=ts-imageimg data-url=cpb-us-e1-polynomial-application-problems-diamonds-the-weight-of-an-ideal-round-cuthtmlpage=7 data-page=7 class=ts-thumb lazyload alt=Page 7: cpb-us-e1wpmucdncom · Polynomial Application Problems DIAMONDS The weight of an ideal round-cut diamond can be modeled by IV = 00071d3 - 00908 + 048d where w is the diamonds loading=lazy src=data:imagegifbase64iVBORw0KGgoAAAANSUhEUgAAAAIAAAACCAQAAADYv8WvAAAAD0lEQVR42mP8X8AwAgiABKBAv+vAXklAAAAAElFTkSuQmCC data-src=https:reader033vdocumentsmxreader033viewer20220605045f1da1ec808f22586a6e1f0bhtml5thumbnails7jpg width=140 height=200 divdivdiv class=ts-pagebutton class=gotoPage data-page=8Page 8button div class=ts-imageimg data-url=cpb-us-e1-polynomial-application-problems-diamonds-the-weight-of-an-ideal-round-cuthtmlpage=8 data-page=8 class=ts-thumb lazyload alt=Page 8: cpb-us-e1wpmucdncom · Polynomial Application Problems DIAMONDS The weight of an ideal round-cut diamond can be modeled by IV = 00071d3 - 00908 + 048d where w is the diamonds loading=lazy src=data:imagegifbase64iVBORw0KGgoAAAANSUhEUgAAAAIAAAACCAQAAADYv8WvAAAAD0lEQVR42mP8X8AwAgiABKBAv+vAXklAAAAAElFTkSuQmCC data-src=https:reader033vdocumentsmxreader033viewer20220605045f1da1ec808f22586a6e1f0bhtml5thumbnails8jpg width=140 height=200 divdiv
