A rectangle has two of its vertices on the X axis and the other two above...

A rectangle is inscribed with its base on the x-axis and its upper corners on the...

A rectangle is inscribed with its base on the x-axis and its upper corners on the parabola y= 1x^2. What are the dimensions of such a rectangle with the greatest possible area?

( PARTA) Find the dimensions (both base and height ) of the rectangle of largest area...

( PARTA) Find the dimensions (both base and height ) of the rectangle of largest area that has its base on the x-axis and its other two vertices above the x-axis and lying on the parabola below. y = 8 − x (PARTB) A box with a square base and open top must have a volume of 62,500 cm3. Find the dimensions( sides of base and the height) of the box that minimize the amount of material used.

The base of a rectangle lies along the x-axis and the upper two vertices are on...

The base of a rectangle lies along the x-axis and the upper two vertices are on the curve defined by y=3-x^2 Find the dimension (length and width) for the rectangle with the maximum area.

1- An open box with a square base is to have a volume of 10 ft3....

1- An open box with a square base is to have a volume of 10 ft3. (a) Find a function that models the surface area A of the box in terms of the length of one side of the base x. (b) Find the box dimensions that minimize the amount of material used. (Round your answers to two decimal places.) 2- Find the dimensions that give the largest area for the rectangle. Its base is on the x-axis and its...

Find the area of the largest rectangle with one corner at the origin, the opposite corner...

Find the area of the largest rectangle with one corner at the origin, the opposite corner in the first quadrant on the graph of the parabola f(x)=600−8x2, and sides parallel to the axes. The maximum possible area is ___. Find the area of the largest rectangle with one corner at the origin, the opposite corner in the first quadrant on the graph of the line f(x)=12−2x, and sides parallel to the axes. The maximum possible area is ___

A rectangle with side lengths given in feet is located in the first quadrant of the...

A rectangle with side lengths given in feet is located in the first quadrant of the xy-plane. It has its lower left corner located at the origin and upper right vertex at the point (x,y) belonging to the curve ?=1−19?2. We will to find the dimensions of the associated rectangle having the largest area possible. (a) Give the objective function (the function to me optimized) in terms of two variables. (b) Give the constraint/restriction, if there is one. (c) Give...

Find the dimensions of a rectangle with perimeter 96 m whose area is as large as...

Find the dimensions of a rectangle with perimeter 96 m whose area is as large as possible. If a rectangle has dimensions x and y, then we must maximize the area A = xy. Since the perimeter is 2x + 2y = 96, then y =  − x.

Find the area of the largest rectangle in the first quadrant with one side on the...

Find the area of the largest rectangle in the first quadrant with one side on the x-axis, one side on the y-axis, and one vertex on the curve y = e −x .

Find the dimensions of a rectangle of area 144 ft2 that has the smallest possible perimeter...

Find the dimensions of a rectangle of area 144 ft2 that has the smallest possible perimeter Largest side dimension= ??? Smallest side dimension= ???  

1. Approximate the area under the graph of​ f(x) and above the​ x-axis with​ rectangles, using...

1. Approximate the area under the graph of​ f(x) and above the​ x-axis with​ rectangles, using the following methods with n = 4. ​f(x) = −x2 + 5 from x = −2 to x = 2 ​(a) Use left endpoints.   ​(b) Use right endpoints.   ​(c) Average the answers in parts​ (a) and​ (b) ​(d) Use midpoints. 2. Approximate the area under the graph of​ f(x) and above the​ x-axis with​ rectangles, using the following methods with n = 4. f(x)...