In honor of Veteran’s Day, people around the country are flying American flags. For many people, finding flags to buy in stores was next to impossible due to the great demand. Therefore, many of us got creative, and started making our own handmade flags out of paper, pins, construction paper, fabric, etc. When flying horizontally, the overall width (top to bottom) and length (left to right) of the flag is in the ratio of 1:1.9. There are 13 stripes of equal width. The width (top to bottom) of the blue field containing the stars is 7/13 of the overall width of the flag; that is, from the top of the flag to the bottom of the 7th stripe. The length (left to right) of blue field is .76 of the overall width of the flag.
Ana wants to draw a US flag on a standard 8 ½ by 11-inch sheet of construction paper. What are the dimensions, in inches, of the largest flag she can draw if she approximates the ratio of the width:length as 1:2?
The length is limited to 11 inches, so the width must be half of that, or 5.5 inches. Therefore, the largest dimensions for the flag will be 5.5 by 11 inches.
Antonio is making a US flag with 2-inch wide stripes. If his flag has the correct ratios, what is the area of the entire rectangular blue field (including the stars)?
If each stripe is 2 inches wide, the total width of the flag is 2 × 13 = 26 inches. The length of the blue field is 0.76 × 26 = 19.76 inches. The width of the blue field is 7 × 2 = 14 inches. Therefore, the area of the blue field is 19.76 × 14 = 276.64 sq. in.
Our current flag has 50 stars, arranged in nine alternating rows of six and five stars. However, the original flag had 13 stars arranged in a circle, such that the outermost tip of each of the 13 stars was on the circumference of the circle. If the distance between the outermost tips of consecutive stars is 4 inches on the circumference of the circle, what is the radius of the circle, in inches? Express your answer in terms of pi.
If the points of the 13 stars are 4 inches apart, the circumference of the circle measures 13 × 4 = 52 inches. Since C = 2πr, we get 52 = 2πr. Solving for r, by dividing both sides of the equation by 2π, gives us a radius of 26/π inches.
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