Video Summary

Arc Length and Area of a Sector

Mathispower4u

Main takeaways

Arc length S is given by S = r·θ when θ is in radians; radians measure arc length relative to the radius.

Convert degrees to radians by multiplying by π/180 before using S = rθ or A = 1/2 r²θ.

Example: arc with r = 9.5 cm and θ = 120° → θ = 2π/3, exact S = 19π/3 cm ≈ 19.9 cm.

Area of a sector A = 1/2 · r² · θ; example: r = 450 m, θ = 240° → θ = 4π/3, exact A = 135,000π m² ≈ 424,115 m².

Compare arc lengths by computing S for each radius with the same θ and subtract; e.g., NCAA vs international free-throw arcs differ by ≈0.298 ft (≈3.581 in).

Key moments

Questions answered

What formula gives the length of an arc and what unit must the angle use?

Arc length S = r·θ, where r is the radius and θ must be in radians.

How do you convert 120 degrees to radians and what is the exact arc length for r = 9.5 cm?

Multiply by π/180: 120° = 2π/3 radians. Exact arc length S = 9.5 × 2π/3 = 19π/3 cm (≈19.9 cm).

How do you compute the area of a sector and what is the area for r = 450 m and θ = 240°?

Sector area A = 1/2 · r² · θ with θ in radians. 240° = 4π/3, so A = 1/2 · 450² · 4π/3 = 135,000π m² (≈424,115 m²).

How was the difference between two half-circle arcs on basketball courts calculated and what is the result?

Compute S = r·π for each radius, subtract the smaller from the larger. The difference is ≈0.298 feet, which is about 3.581 inches.

Why is it important to use radians in the formulas S = rθ and A = 1/2 r²θ?

Those formulas derive from the fraction of a full circle using θ/2π; when θ is in radians π cancels cleanly, giving the simple forms S = rθ and A = 1/2 r²θ.

Arc Length and Its Calculation 00:12

"The length of an arc of a circle depends on both the angle of rotation and the radius length of the circle."

The length of an arc in a circle is influenced by two main factors: the angle of rotation and the radius of the circle.
A radian is defined as the angle that subtends an arc whose length is equal to the radius of the circle.
For example, a half rotation corresponds to π radians, which is slightly more than three times the radius length of the circle.
If the radius of a circle is 4 centimeters, the length of the half-circle arc is expressed as 4/π centimeters.
Additionally, dividing the arc length by the radius gives the angle measure in radians, confirming that the angle would be π radians in this case.
The general formula for arc length (S) can be derived as S = radius × θ, where θ must be expressed in radians.

Finding Arc Length Example 01:30

"To find the length of the arc intercepted by a central angle of 120 degrees, we must first convert this angle into radians."

In a specific example, to find the arc length when the radius is 9.5 centimeters and the central angle is 120 degrees, we first convert degrees to radians.
The conversion involves multiplying by π/180; thus, 120 degrees converts to 2π/3 radians.
The arc length can then be calculated using the formula ( S = \text{radius} \times \theta ), resulting in ( S = 9.5 \times \frac{2\pi}{3} ).
The decimal approximation of this value is approximately 19.9 centimeters, but the exact arc length in terms of π is ( \frac{19\pi}{3} ) centimeters.

Comparing Two Arc Lengths on a Basketball Court 03:26

"To compare the lengths of two arcs, we need to find the difference in their dimensions."

In examining the half-circle arcs above the free throw lines of NCAA and international basketball courts, we denote the outer arc length as A and the inner arc length as B.
For the outer arc, with a radius of 6 feet and an angle of π radians, the arc length A can be calculated leaving the answer in terms of π.
The smaller inner arc has a radius of 11.81 feet, thus for S-B, the angle remains π.
The difference in arc lengths is computed, resulting in approximately 0.298 feet. This difference can be converted to inches, yielding about 3.581 inches.

Area of a Sector 05:40

"The area of a sector is derived from the fraction of the circle defined by the central angle in radians."

A sector of a circle represents a portion of the circle's interior, defined by a central angle.
When θ (the angle in radians) is employed, the area of the sector can be articulated as ( \frac{1}{2} \times R^2 \times \theta ), simplifying to ( \frac{1}{2} R^2 \theta ) after canceling out π in the calculation.
In a practical example, irrigation through a center pivot method defines circular fields, and if the irrigation pipe is 450 meters, we can find the irrigated area after a rotation of 240 degrees.
The area calculation requires converting 240 degrees into radians, which gives ( \frac{4π}{3} ).
Finally, the exact area formula provides ( 135,000π ) square meters, which converts to an approximate decimal area of 424,115 square meters.

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