Geometry/Appendix A

This is an incomplete list of formulas used in geometry.

• Sum the lengths of the sides.

• ${\displaystyle \pi d=2\pi r}$
  • ${\displaystyle d}$ is the diameter
  • ${\displaystyle r}$ is the radius

• Law of Sines: ${\displaystyle \frac{a}{sin(A)}=\frac{b}{sin(B)}=\frac{c}{sin(C)}}$
  • ${\displaystyle a,b,c}$ are sides, ${\displaystyle A,B,C}$ are the angles corresponding to ${\displaystyle a,b,c}$ respectively.
• Law of Cosines: ${\displaystyle c^2=a^2+b^2-2ab\cos (C),}$
  • ${\displaystyle a,b,c}$ are sides, ${\displaystyle A,B,C}$ are the angles corresponding to ${\displaystyle a,b,c}$ respectively.

• Pythagorean Theorem: ${\displaystyle c^2=a^2+b^2}$
  • ${\displaystyle a,b,c}$ are sides where c is greater than other two.

• ${\displaystyle A=\frac{bh}{2}}$
  • ${\displaystyle b}$ = base, ${\displaystyle h}$ = height (perpendicular to base), ${\displaystyle A}$ = area
• Heron's Formula: ${\displaystyle A=\sqrt{s(s-a)(s-b)(s-c)}}$
  • ${\displaystyle a,b,c}$ are sides, and ${\displaystyle s=\frac{a+b+c}{2}}$, ${\displaystyle A}$ = area

• ${\displaystyle \frac{\sqrt{3}{a}^2}{4}}$
  • ${\displaystyle a}$ is a side

• ${\displaystyle s^2}$
  • ${\displaystyle s}$ is the length of the square's side

• ${\displaystyle ab}$
  • ${\displaystyle a}$ and ${\displaystyle b}$ are the sides of the rectangle

• ${\displaystyle bh}$
  • ${\displaystyle b}$ is the base, ${\displaystyle h}$ is the height

• ${\displaystyle \frac{(b_1+b_2)h}{2}}$
  • ${\displaystyle b_1,b_2}$ are the two bases, ${\displaystyle h}$ is the height

• ${\displaystyle \pi r^2}$
  • ${\displaystyle r}$ is the radius

• Cube: 6×(${\displaystyle s^2}$)
  • ${\displaystyle s}$ is the length of a side.
• Rectangular Prism: 2×((${\displaystyle l,}$ × ${\displaystyle w}$) + (${\displaystyle l}$ × ${\displaystyle h}$) + (${\displaystyle w}$ × ${\displaystyle h}$))
  • ${\displaystyle l}$, ${\displaystyle w}$, and ${\displaystyle h}$ are the length, width, and height of the prism
• Sphere: 4×π×(${\displaystyle r}$²)
  • ${\displaystyle r}$ is the radius of the sphere
• Cylinder: 2×π×${\displaystyle r}$×(${\displaystyle h}$ + ${\displaystyle r}$)
  • ${\displaystyle r}$ is the radius of the circular base, and ${\displaystyle h}$ is the height
• Pyramid: ${\displaystyle A=A_b+\frac{ps}{2}}$
  • ${\displaystyle A}$ = Surface area, ${\displaystyle A_b}$ = Area of the Base, ${\displaystyle p}$ = Perimeter of the base, ${\displaystyle s}$ = slant height.

The surface area of a regular pyramid can also be determined based only on the number of sides(${\displaystyle n}$), the radius(${\displaystyle r}$) or side length(${\displaystyle l}$), and the height(${\displaystyle h}$)

If ${\displaystyle r}$ is known, ${\displaystyle l}$ is defined as ${\displaystyle l=\sqrt{(rcos(\frac{360}{n})-r{)}^2+(rsin(\frac{360}{n}){)}^2}=\sqrt{2}r\sqrt{1-cos(\frac{360}{n})}}$

or if ${\displaystyle l}$ is known, ${\displaystyle r}$ is defined as ${\displaystyle r=\frac{l}{\sqrt{2}\sqrt{1-cos(\frac{360}{n})}}}$

The slant height ${\displaystyle h_1}$ is given by ${\displaystyle \sqrt{r^2+h^2+\frac{l^2}{4}}}$

The total surface area of the pyramid is given by ${\displaystyle n\frac{l}{2}[h_1+h_0]}$

• Cone: π×r×(r + √(r² + h²))
  • ${\displaystyle r}$ is the radius of the circular base, and ${\displaystyle h}$ is the height.

• Cube ${\displaystyle s^3=s\cdot s\cdot s}$
  • s = length of a side
• Rectangular Prism ${\displaystyle l\cdot w\cdot h}$
  • l = length, w = width, h = height
• Cylinder(Circular Prism)${\displaystyle \pi r^2\cdot h}$
  • r = radius of circular face, h = distance between faces
• Any prism that has a constant cross sectional area along the height:
  • ${\displaystyle A\cdot h}$
  • A = area of the base, h = height
• Sphere: ${\displaystyle \frac{4}{3}\pi r^3}$
  • r = radius of sphere
• Ellipsoid: ${\displaystyle \frac{4}{3}\pi abc}$
  • a, b, c = semi-axes of ellipsoid
• Pyramid: ${\displaystyle \frac{1}{3}Ah}$
  • A = area of base, h = height from base to apex
• Cone (circular-based pyramid):${\displaystyle \frac{1}{3}\pi r^{2}h}$
  • r = radius of circle at base, h = distance from base to tip

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