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أدلة الدراسة > Prealgebra

Using the Properties of Circles to Solve Problems

Learning Outcomes

  • Find the circumference and area of a circular object given it's radius
  • Find the circumference and area of a circular object given it's diameter
  • Calculate the diameter of a circular object given it's circumference
 

Do you remember the properties of circles from Decimals and Fractions Together? We’ll show them here again to refer to as we use them to solve applications.

Properties of Circles

An image of a circle is shown. There is a line drawn through the widest part at the center of the circle with a red dot indicating the center of the circle. The line is labeled d. The two segments from the center of the circle to the outside of the circle are each labeled r.
  • rr is the length of the radius
  • dd is the length of the diameter
  • d=2rd=2r
  • Circumference is the perimeter of a circle. The formula for circumference isC=2πrC=2\pi r
  • The formula for area of a circle isA=πr2A=\pi {r}^{2}
  Remember, that we approximate π\pi with 3.143.14 or 227\frac{22}{7} depending on whether the radius of the circle is given as a decimal or a fraction. If you use the π\pi key on your calculator to do the calculations in this section, your answers will be slightly different from the answers shown. That is because the π\pi key uses more than two decimal places.

example

A circular sandbox has a radius of 2.52.5 feet. Find the 1. circumference and 2. area of the sandbox. Solution
1. Step 1. Read the problem. Draw the figure and label it with the given information. .
Step 2. Identify what you are looking for. the circumference of the circle
Step 3. Name. Choose a variable to represent it. Let c = circumference of the circle
Step 4. Translate. Write the appropriate formula Substitute C=2πrC=2\pi r C=2π(2.5)C=2\pi \left(2.5\right)
Step 5. Solve the equation. C2(3.14)(2.5)C\approx 2\left(3.14\right)\left(2.5\right) C15ftC\approx 15\text{ft}
Step 6. Check. Does this answer make sense? Yes. If we draw a square around the circle, its sides would be 55 ft (twice the radius), so its perimeter would be 2020 ft. This is slightly more than the circle's circumference, 15.715.7 ft. .
Step 7. Answer the question. The circumference of the sandbox is 15.715.7 feet.
2. Step 1. Read the problem. Draw the figure and label it with the given information. .
Step 2. Identify what you are looking for. the area of the circle
Step 3. Name. Choose a variable to represent it. Let A = the area of the circle
Step 4. Translate. Write the appropriate formula Substitute A=πr2A=\pi {r}^{2} A=π(2.5)2A=\pi{\left(2.5\right)}^{2}
Step 5. Solve the equation. A(3.14)(2.5)2A\approx \left(3.14\right){\left(2.5\right)}^{2} A19.625sq. ftA\approx 19.625\text{sq. ft}
Step 6. Check. Yes. If we draw a square around the circle, its sides would be 55 ft, as shown in part ⓐ. So the area of the square would be 2525 sq. ft. This is slightly more than the circle's area, 19.62519.625 sq. ft.
Step 7. Answer the question. The area of the circle is 19.62519.625 square feet.
 

try it

[ohm_question]146563[/ohm_question] [ohm_question]146564[/ohm_question]
  We usually see the formula for circumference in terms of the radius rr of the circle: C=2πrC=2\pi r But since the diameter of a circle is two times the radius, we could write the formula for the circumference in terms ofd\text{of}d. C=2πrUsing the commutative property, we getC=π2rThen substitutingd=2rC=πdSoC=πd\begin{array}{cccc}& & & C=2\pi r\hfill \\ \text{Using the commutative property, we get}\hfill & & & C=\pi \cdot 2r\hfill \\ \text{Then substituting}d=2r\hfill & & & C=\pi \cdot d\hfill \\ \text{So}\hfill & & & C=\pi d\hfill \end{array} We will use this form of the circumference when we’re given the length of the diameter instead of the radius.  

example

A circular table has a diameter of four feet. What is the circumference of the table?

Answer: Solution

Step 1. Read the problem. Draw the figure and label it with the given information. .
Step 2. Identify what you are looking for. the circumference of the table
Step 3. Name. Choose a variable to represent it. Let c = the circumference of the table
Step 4. Translate. Write the appropriate formula for the situation. Substitute. C=πdC=\pi d C=π(4)C=\pi \left(4\right)
Step 5. Solve the equation, using 3.143.14 for π\pi . C(3.14)(4)C\approx \left(3.14\right)\left(4\right) C12.56feetC\approx 12.56\text{feet}
Step 6. Check: If we put a square around the circle, its side would be 44. The perimeter would be 1616. It makes sense that the circumference of the circle, 12.5612.56, is a little less than 1616. .
Step 7. Answer the question. The diameter of the table is 12.5612.56 square feet.

 

try it

[ohm_question]146785[/ohm_question] [ohm_question]146786[/ohm_question]
 

example

Find the diameter of a circle with a circumference of 47.147.1 centimeters.

Answer: Solution

Step 1. Read the problem. Draw the figure and label it with the given information. . C=47.1C=47.1cm
Step 2. Identify what you are looking for. the diameter of the circle
Step 3. Name. Choose a variable to represent it. Let dd = the diameter of the circle
Step 4. Translate.
Write the formula. Substitute, using 3.143.14 to approximate π\pi . C=πdC=\pi{d} 47.13.14d47.1\approx{3.14d}
Step 5. Solve. 47.13.143.14d3.14\frac{47.1}{3.14}\approx\frac{3.14d}{3.14} 15d15\approx{d}
Step 6. Check: C=πdC=\pi{d} 47.1=?(3.14)(15)47.1\stackrel{?}{=}\left(3.14\right)\left(15\right) 47.1=47.147.1=47.1\quad\checkmark
Step 7. Answer the question. The diameter of the circle is approximately 1515 centimeters.

 

try it

[ohm_question]146787[/ohm_question]
 

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