Rad Data Handbook 20.. - Voss Associates
Rad Data Handbook 20.. - Voss Associates
Rad Data Handbook 20.. - Voss Associates
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
SURFACE AREA AND VOLUME CALCULATIONS<br />
Triangle A (area) = ½ x b x h;<br />
where b is the base and h is the height of the triangle<br />
Rectangle A (area) = a x b;<br />
where a and b are the lengths of the sides<br />
Rectangular Box V (volume) = w x l x h;<br />
where w is the width, l is the length, and h is the height<br />
Parallelogram (a 4-sided figure with opposite sides parallel)<br />
A (area) = a x h; or a x b x sin ;<br />
where a and b are the length of the sides, h is the altitude (or<br />
vertical height), and is the angle between the sides<br />
Trapezoid (a 4-sided figure with two sides parallel)<br />
A (area) = ½ x h (a + b);<br />
where a and b are the length of the sides and h is the height<br />
Regular polygon of n sides<br />
2 0<br />
A (area) = 1/4 x n x a x cotangent (180 / n);<br />
where a is the length of a side and n is the number of sides<br />
2 2<br />
Circle A (area) = x r ; or 1/4 x x d ;<br />
where r is the radius and d is the diameter<br />
2<br />
Cube A (area) = 6 x a ;<br />
3<br />
V (volume) = a ;<br />
where a is the length of a side<br />
Cylinder A (area) = 2 x x r x h;<br />
2<br />
V (volume) = x r x h;<br />
where r is the radius and h is the length of the height<br />
2 2<br />
Sphere A (area) = 4 x x r ; or x d ;<br />
3 3<br />
V (volume) = 4/3 x x r or 1/6 x x d<br />
where r is the radius and d is the diameter<br />
SURFACE AREA AND VOLUME CALCULATIONS<br />
Triangle A (area) = ½ x b x h;<br />
where b is the base and h is the height of the triangle<br />
Rectangle A (area) = a x b;<br />
where a and b are the lengths of the sides<br />
Rectangular Box V (volume) = w x l x h;<br />
where w is the width, l is the length, and h is the height<br />
Parallelogram (a 4-sided figure with opposite sides parallel)<br />
A (area) = a x h; or a x b x sin ;<br />
where a and b are the length of the sides, h is the altitude (or<br />
vertical height), and is the angle between the sides<br />
Trapezoid (a 4-sided figure with two sides parallel)<br />
A (area) = ½ x h (a + b);<br />
where a and b are the length of the sides and h is the height<br />
Regular polygon of n sides<br />
2 0<br />
A (area) = 1/4 x n x a x cotangent (180 / n);<br />
where a is the length of a side and n is the number of sides<br />
2 2<br />
Circle A (area) = x r ; or 1/4 x x d ;<br />
where r is the radius and d is the diameter<br />
2<br />
Cube A (area) = 6 x a ;<br />
3<br />
V (volume) = a ;<br />
where a is the length of a side<br />
Cylinder A (area) = 2 x x r x h;<br />
2<br />
V (volume) = x r x h;<br />
where r is the radius and h is the length of the height<br />
2 2<br />
Sphere A (area) = 4 x x r ; or x d ;<br />
3 3<br />
V (volume) = 4/3 x x r or 1/6 x x d<br />
where r is the radius and d is the diameter<br />
122<br />
122<br />
SURFACE AREA AND VOLUME CALCULATIONS<br />
Triangle A (area) = ½ x b x h;<br />
where b is the base and h is the height of the triangle<br />
Rectangle A (area) = a x b;<br />
where a and b are the lengths of the sides<br />
Rectangular Box V (volume) = w x l x h;<br />
where w is the width, l is the length, and h is the height<br />
Parallelogram (a 4-sided figure with opposite sides parallel)<br />
A (area) = a x h; or a x b x sin ;<br />
where a and b are the length of the sides, h is the altitude (or<br />
vertical height), and is the angle between the sides<br />
Trapezoid (a 4-sided figure with two sides parallel)<br />
A (area) = ½ x h (a + b);<br />
where a and b are the length of the sides and h is the height<br />
Regular polygon of n sides<br />
2 0<br />
A (area) = 1/4 x n x a x cotangent (180 / n);<br />
where a is the length of a side and n is the number of sides<br />
2 2<br />
Circle A (area) = x r ; or 1/4 x x d ;<br />
where r is the radius and d is the diameter<br />
2<br />
Cube A (area) = 6 x a ;<br />
3<br />
V (volume) = a ;<br />
where a is the length of a side<br />
Cylinder A (area) = 2 x x r x h;<br />
2<br />
V (volume) = x r x h;<br />
where r is the radius and h is the length of the height<br />
2 2<br />
Sphere A (area) = 4 x x r ; or x d ;<br />
3 3<br />
V (volume) = 4/3 x x r or 1/6 x x d<br />
where r is the radius and d is the diameter<br />
SURFACE AREA AND VOLUME CALCULATIONS<br />
Triangle A (area) = ½ x b x h;<br />
where b is the base and h is the height of the triangle<br />
Rectangle A (area) = a x b;<br />
where a and b are the lengths of the sides<br />
Rectangular Box V (volume) = w x l x h;<br />
where w is the width, l is the length, and h is the height<br />
Parallelogram (a 4-sided figure with opposite sides parallel)<br />
A (area) = a x h; or a x b x sin ;<br />
where a and b are the length of the sides, h is the altitude (or<br />
vertical height), and is the angle between the sides<br />
Trapezoid (a 4-sided figure with two sides parallel)<br />
A (area) = ½ x h (a + b);<br />
where a and b are the length of the sides and h is the height<br />
Regular polygon of n sides<br />
2 0<br />
A (area) = 1/4 x n x a x cotangent (180 / n);<br />
where a is the length of a side and n is the number of sides<br />
2 2<br />
Circle A (area) = x r ; or 1/4 x x d ;<br />
where r is the radius and d is the diameter<br />
2<br />
Cube A (area) = 6 x a ;<br />
3<br />
V (volume) = a ;<br />
where a is the length of a side<br />
Cylinder A (area) = 2 x x r x h;<br />
2<br />
V (volume) = x r x h;<br />
where r is the radius and h is the length of the height<br />
2 2<br />
Sphere A (area) = 4 x x r ; or x d ;<br />
3 3<br />
V (volume) = 4/3 x x r or 1/6 x x d<br />
where r is the radius and d is the diameter<br />
`122<br />
122