A Rain Gutter Is To Be Made Of Aluminum Sheets That Are 12 Inches Wide

The edges are turned up to form right angles.

A rain gutter is to be made of aluminum sheets that are 12 inches wide.

After marking off a length of 4 inches from each edge this length is bent up at an angle θ. The area a of the opening may be expressed as the function. Round to the nearest tenth of an inch. A rain gutter is to be made of aluminum sheets that are 24 inches wide by turning up the edges 90.

The edges are turned up to form right angles. A long rectangular sheet of metal 10 in. A rain gutter is made from sheets of aluminum that are 18 inches wide by turning up the edges to form right angles. A rain gutter is made from sheets of aluminum that are 20 inches wide.

Find the length that must be turned up to produce a gutter with a maximum cross sectional area. Wide is to be made into a gutter by turning up sides of equal length perpendicular to the sheet. A what depth will provide maximum cross sectional area and hence allow the most water to flow. Determine the depth of the gutter that will maximize its cross sectional area and allow the greatest amount of water to flow let the height be x then base is 12 2x area x 12 2x 2x 2 12x.

Round to the nearest tenth of an inch. A depth width a. A rain gutter is to be made of aluminum sheets that are 12 inches wide by turning up the edges 90. Determine the depth of the gutter that will allow a cross sectional area of 60 square inches.

A θ 16 sin θ cos θ 1. If θ 45 what is the area of the opening. A rain gutter is made from sheets of aluminum that are 28 inches wide. B what depths will allow at least 16 square inches of water to flow.

A rain gutter is made from sheets of aluminum that are 12 inches wide by turning up the edges to form right angles. See the hlustration what depth will provide maximum cross sectional wrea and hence allow the most water to flow. A rain gutter is to be made of aluminum sheets that are 12 inches wide by turning up the edges 90 degrees what depth will provide maximum cross sectional area and hence allow the most water to flow. Show that there are two different solutions to the problem.

Determine the depth of the gutter that will maximize its cross sectional area and allow the greatest amount of water to flow. Determine the depth of the gutter that will allow a cross sectional area of 13 square inches. There are two solutions to this problem.