Calculus How To

Inscribed Rectangle & Circumscribed Rectangle

Share on

Calculus Definitions >

inscribed rectangle and circumscribed rectangle

An inscribed rectangle is a rectangle drawn within a shape. In calculus, we’re mostly concerned with the largest inscribed rectangle; The largest that doesn’t break through the edges of the shape. A circumscribed rectangle is drawn outside of a shape; Usually we want to know the smallest rectangle that can completely enclose a shape.

Use of Inscribed and Circumscribed Rectangles in Calculus

Inscribed rectangles and circumscribed rectangles are used in a few different areas in calculus, most notably in Riemann Sums and Optimization.

1. Riemann Sums: Use of Circumscribed and Inscribed Rectangle

inscribed and circumscribed rectangles

(a) A series of circumscribed rectangles and (b) inscribed rectangles.

Inscribed rectangles and circumscribed rectangles in Riemann Sums

The area under a curve can be approximated with a series of rectangles:

  • Inscribed rectangles are an under-approximation of the area (called a lower sum).
  • Circumscribed rectangles are an over-approximation of the area (called an upper sum).

For step by step examples and how-to video, see: Riemann sums.

2. Optimization: Largest Inscribed Rectangle Within a Circle

Many optimization problems (which deal with the “biggest” or “smallest”) use inscribed and circumscribed rectangles.

Example: What is the largest inscribed rectangle that can fit into a circle with a radius of 1?
inscribed rectangle within a circle

Step 1: Formulate a function to maximize.

We know that the diagonal of any inscribed rectangle (blue line) has a length of 2 (because 2 * radius = diameter). We can use this information and the Pythagorean theorem (a2 + b2 = c2) to get:

w2 + h2 = 4.

We need to get this formula in terms of one variable to create our function:

  1. Solve for w: w2 + h2 = 4 → w = √(4 – h)2.
  2. Substitute (1) into A = w * h → A = h * √(4 – h2).

The formula we need to maximize is A = h * √(4 – h2).

Step 2: Graph the function (I used We want to find the function’s maximum height.
maximized function

The function has a maximum x-value (actually, our “h”) at x = √2 ≈ 1.414. Therefore, the largest rectangle has a height of √2.

If h = √2, then, putting that into the Pythagorean theorem:
1.4142 + b2 = 4
2 + b2 = 4
2 + √2,2 = 4
2 + 2 = 4

The inscribed rectangle is a 2 x 2 square with an area of 4.

Stephanie Glen. "Inscribed Rectangle & Circumscribed Rectangle" From Calculus for the rest of us!

Need help with a homework or test question? With Chegg Study, you can get step-by-step solutions to your questions from an expert in the field. Your first 30 minutes with a Chegg tutor is free!

Leave a Reply

Your email address will not be published. Required fields are marked *