Quick Navigation Algebra Formulas Geometry Formulas Trigonometry Formulas Calculus Formulas Statistics Formulas Linear Algebra Formulas Number Theory Formulas Differential Equations Formulas Mathematical Constants Algebra Formulas Quadratic Formula x = (-b ± √(b² − 4ac)) / (2a)
Solves ax² + bx + c = 0. The discriminant Δ = b² − 4ac determines root type.
Factoring Identities a² − b² = (a + b)(a − b)
a² + 2ab + b² = (a + b)²
a³ + b³ = (a + b)(a² − ab + b²)
Binomial Theorem (a + b)ⁿ = Σ (from k=0 to n) C(n,k) · aⁿ⁻ᵏ · bᵏ
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(a + b)² = a² + 2ab + b²
Arithmetic Sequences & Series nth term: aₙ = a₁ + (n − 1)d
Geometric Sequences & Series nth term: aₙ = a₁ · rⁿ⁻¹
Exponent Laws 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 aᵐ · aⁿ = aᵐ⁺ⁿ aᵐ / aⁿ = aᵐ⁻ⁿ
Logarithm Laws log_b(xy) = log_b(x) + log_b(y)
If log_b(x) = y, then bʸ = x. Logarithms and exponentials are inverse functions.
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Rectangle (length l, width w) 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 Area = lw
Triangle (base b, height h) Area = ½bh
Circle (radius r) Area = πr²
Trapezoid (parallel sides a, b; height h) Area = ½(a + b)h
Parallelogram (base b, height h) Area = bh
Ellipse (semi-axes a, b) Area = πab
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Rectangular Prism (l × w × h) Volume = lwh
Sphere (radius r) Volume = (4/3)πr³
Cylinder (radius r, height h) Volume = πr²h
Cone (radius r, height h, slant height l) Volume = (1/3)πr²h
Pyramid (base area B, height h) Volume = (1/3)Bh
Coordinate Geometry Distance: d = √((x₂ − x₁)² + (y₂ − y₁)²)
Slope-intercept form: y = mx + b
Circle equation: (x − h)² + (y − k)² = r²
Trigonometry Formulas Basic Ratios (Right Triangle) sin(θ) = opposite / hypotenuse
csc(θ) = 1/sin(θ) sec(θ) = 1/cos(θ) cot(θ) = 1/tan(θ)
Unit Circle — Key Values θ sin(θ) cos(θ) tan(θ)
Pythagorean Identities sin²(θ) + cos²(θ) = 1
Sum & Difference Formulas sin(A ± B) = sin(A)cos(B) ± cos(A)sin(B)
Double Angle Formulas 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 sin(2θ) = 2sin(θ)cos(θ)
Half Angle Formulas sin(θ/2) = ±√((1 − cos(θ)) / 2)
Law of Sines BqzKXIIZN8AcbvRA9XVbuwALNSKpX3p0ESnW3OhJYu1aIDoEPcWYKd7Ci6sua+KLx6XE/TP6D1v5vaYYVN8gmS88Tzzg2uqTpOFdYYxkxhMeGNFrzAbRtNKoUeb3WL9pwA+VT3wpcBEP2h5Mv2c6385PKtbTbVTYl7kxgwQOmU/NY8RPUZwC74heao4zRDDYF4MKrxm5cCX+fd/QkLbkIAlNE9Eh6kBwMf52G5Mw6Hh4C31scKlwS5g6eR4g5MXGrGhw8Ol9bWFOk3tPcXdv7V/t1XA2kRrv6+/4+6enzxXH/6NIH3ZwFyyeYQtLaeIVz1PsdmokaspYgm8Fwhq5Se4RnM+Ar9scGMMbrvjHUreP4knTunnf1QxnfaO9bBWmZKzePX5PKF7etO6WlxnXaG7iiqJsLfNtEi3PGifP02fBwJglNiolFqgb9x2VerD9G/dM+4gP9cJnQXnfr042pqUxjN8Pn3KffE4edSe202rqWWwWdVQPjQuVqXMI/nxlznuc+Wi7W6f56s2ENIEPeGLu8qMuJGiI0qabpEjDEFlhA0OAn7BS631RKU68b17iPfa6aJwmipJpj8xPz+Eaf+cct+WhxrOEqa4geQhGEMn+qESn3H8wmHoyWO0Ar7/FXS3iA a/sin(A) = b/sin(B) = c/sin(C) = 2R
Where R is the circumradius of the triangle.
Law of Cosines c² = a² + b² − 2ab·cos(C)
Law of Tangents (a − b) / (a + b) = tan((A − B)/2) / tan((A + B)/2)
The ± sign in half angle formulas depends on the quadrant of θ/2. Always check which quadrant the half angle falls in.
Calculus Formulas Limits lim (x→0) sin(x)/x = 1
L'Hôpital's Rule If lim f(x)/g(x) is 0/0 or ∞/∞, then:
Derivative Rules Constant: d/dx [c] = 0
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Integral Rules ∫ cf(x) dx = c ∫ f(x) dx
Common Integrals ∫ xⁿ dx = xⁿ⁺¹/(n+1) + C, n ≠ −1
Fundamental Theorem of Calculus 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 Part 1: d/dx [∫ₐˣ f(t) dt] = f(x)
Taylor / Maclaurin Series Taylor series about x = a:
Maclaurin series (a = 0):
Don't forget the + C (constant of integration) for indefinite integrals! This is one of the most common mistakes on exams.
Statistics Formulas Measures of Central Tendency Mean (average): x̄ = (Σ xᵢ) / n
Measures of Spread Range = max − min
Z-Score z = (x − μ) / σ
Measures how many standard deviations a value is from the mean.
Probability Rules 0 ≤ P(A) ≤ 1
Conditional Probability P(A|B) = P(A ∩ B) / P(B)
Bayes' Theorem 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 P(A|B) = P(B|A) · P(A) / P(B)
Permutations & Combinations Permutations: P(n,r) = n! / (n − r)!
Discrete Distributions Binomial Distribution P(X = k) = C(n,k) · pᵏ · (1−p)ⁿ⁻ᵏ
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 Poisson Distribution P(X = k) = (λᵏ · e⁻ˡ) / k!
Continuous Distributions Normal Distribution f(x) = (1 / (σ√(2π))) · e^(−(x−μ)² / (2σ²))
Linear Regression ŷ = b₀ + b₁x
Correlation Coefficient r = (nΣxᵢyᵢ − ΣxᵢΣyᵢ) / √((nΣxᵢ² − (Σxᵢ)²)(nΣyᵢ² − (Σyᵢ)²))
r ranges from −1 (perfect negative) to +1 (perfect positive), with 0 indicating no linear correlation.
Use n − 1 (Bessel's correction) in the denominator for sample variance and standard deviation. Use N for population parameters.
Linear Algebra Formulas Vector Operations Addition: (a₁, a₂) + (b₁, b₂) = (a₁+b₁, a₂+b₂)
Dot Product a · b = a₁b₁ + a₂b₂ + ... + aₙbₙ
If a · b = 0, the vectors are orthogonal (perpendicular).
Cross Product (3D) a × b = (a₂b₃ − a₃b₂, a₃b₁ − a₁b₃, a₁b₂ − a₂b₁)
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 The result is a vector perpendicular to both a and b.
Matrix Operations Addition: (A + B)ᵢⱼ = Aᵢⱼ + Bᵢⱼ (same dimensions)
Matrix multiplication is NOT commutative: AB ≠ BA in general. Always check dimensions before multiplying.
Determinants 2×2 Determinant det [a b] = ad − bc
3×3 Determinant (cofactor expansion along first row) det [a b c]
Matrix Inverse 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 2×2 Inverse A = [a b] A⁻¹ = (1/det(A)) · [ d −b]
A⁻¹ exists only if det(A) ≠ 0 (the matrix is non-singular).
Properties AA⁻¹ = A⁻¹A = I (identity matrix)
Eigenvalues & Eigenvectors 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 Av = λv
Where λ is an eigenvalue and v is the corresponding eigenvector.
Characteristic equation: det(A − λI) = 0
Solve for λ to find eigenvalues, then solve (A − λI)v = 0 for eigenvectors.
Key Properties Σ λᵢ = trace(A) = Σ Aᵢᵢ
KYYC17WFEN54NRaQ85ndDoQrrhICjJPGCiiCE4dsXMIXSudhkJBnics1VfAckAYRmMC+7KEnI0haDBuWbZiDVD/UGKQtICtaZibeOe+VUdD298veIPjVQ2uP63v9lh+YIaP+So+vMqEryZfdzCX21utDqUtkavdo7z2HnRGDQ95MudmGeXKlY9aqSwwGLlJRh8a8cSmwnmpzq9y1VsR/PAb8HPOc0HLBgjhdU1dkffaPUeGtI3Iz0w0AQ6WrvFfAR+ylvBzDINKauYA43QZX4n/TRWVhxVlcORUTev0plZT/YdlmceifUlmClY19ZalX9CuLkw48bV17qUcemIes1jlI+SyEssWvGOr2uftuaatgAYVrJ7LsxMWE8YWwSgxXTVfCTSW0CXz2mwlEonDHDmy5HKG6gMNksx8hUXAA3BcRHYfQ/SXVRNR9OaR/Rk4BdBVhjO3kKs7meB3u82n40uYujWgMFDc8Ngjy+oVveigJfbUoXslZgk9OEoUwpK1t8rk4k1LhL/RrgGWxrqqi4Pw2PnTXq4hbRzWpx1H+x80QW6EzruX1Y6KEVhQ1qWIJdO0PvRQM96DUHydesEodJtONR3YM/UcXsWowaSrPn/6L0fuFaM8xkyYqfmcXezJRsCQY= Number Theory Formulas Divisibility & GCD Division Algorithm: a = bq + r, where 0 ≤ r < b
Modular Arithmetic a ≡ b (mod n) means n | (a − b)
Euler's Totient Function φ(n) = n · ∏(p|n) (1 − 1/p)
Fermat's & Euler's Theorems Fermat's Little Theorem: aᵖ ≡ a (mod p) if p is prime
Chinese Remainder Theorem If gcd(mᵢ, mⱼ) = 1 for all i ≠ j, then the system:
Prime Number Formulas Fundamental Theorem of Arithmetic: every n > 1 has a unique prime factorization
Wilson's Theorem (p − 1)! ≡ −1 (mod p) if and only if p is prime
Number theory formulas form the security backbone of RSA encryption. The RSA algorithm relies on Euler's theorem and the difficulty of factoring large numbers.
Differential Equations Formulas Separable Equations dy/dx = f(x)g(y) → ∫ dy/g(y) = ∫ f(x) dx + C
First-Order Linear (Integrating Factor) dy/dx + P(x)y = Q(x)
Second-Order Linear (Constant Coefficients) ay″ + by′ + cy = 0
Two real roots r₁ ≠ r₂: y = C₁e^(r₁x) + C₂e^(r₂x)
Method of Undetermined Coefficients For ay″ + by′ + cy = g(x):
Multiply by x if the trial solution overlaps with the homogeneous solution.
Variation of Parameters For y″ + P(x)y′ + Q(x)y = g(x):
Laplace Transform Pairs ℒ{1} = 1/s
Famous Differential Equations Exponential growth/decay: dy/dt = ky → y = y₀eᵏᵗ
Mathematical Constants
π (pi) = 3.14159265358979...
Important Identities
e^(iπ) + 1 = 0 (Euler's identity)
This formula sheet covers the most commonly needed formulas across mathematics. For topic-specific explanations and worked examples, visit the individual topic pages linked in the navigation.