Friday, 8 June 2018

Mathematical Symbols and signs - meanings

Mathematical Symbols

List of all mathematical symbols and signs - meaning and examples.
  • Basic math symbols
  • Geometry symbols
  • Algebra symbols
  • Probability & statistics symbols
  • Set theory symbols
  • Logic symbols
  • Calculus & analysis symbols
  • Number symbols
  • Greek symbols
  • Roman numerals

Basic math symbols

SymbolSymbol NameMeaning / definitionExample
=equals signequality5 = 2+3
5 is equal to 2+3
not equal signinequality5 ≠ 4
5 is not equal to 4
approximately equalapproximationsin(0.01) ≈ 0.01,
x ≈ y means x is approximately equal to y
>strict inequalitygreater than5 > 4
5 is greater than 4
<strict inequalityless than4 < 5
4 is less than 5
inequalitygreater than or equal to5 ≥ 4,
x ≥ y means x is greater than or equal to y
inequalityless than or equal to4 ≤ 5,
x ≤ y means x is less than or equal to y
( )parenthesescalculate expression inside first2 × (3+5) = 16
[ ]bracketscalculate expression inside first[(1+2)×(1+5)] = 18
+plus signaddition1 + 1 = 2
minus signsubtraction2 − 1 = 1
±plus - minusboth plus and minus operations3 ± 5 = 8 and -2
±minus - plusboth minus and plus operations3 ∓ 5 = -2 and 8
*asteriskmultiplication2 * 3 = 6
×times signmultiplication2 × 3 = 6
multiplication dotmultiplication2 ⋅ 3 = 6
÷division sign / obelusdivision6 ÷ 2 = 3
/division slashdivision6 / 2 = 3
horizontal linedivision / fraction\frac{6}{2}=3
modmoduloremainder calculation7 mod 2 = 1
.perioddecimal point, decimal separator2.56 = 2+56/100
abpowerexponent23 = 8
a^bcaretexponent2 ^ 3 = 8
asquare root
a ⋅  = a
9 = ±3
3acube root3a ⋅ 3 ⋅ 3 = a38 = 2
4afourth root4a ⋅ 4 ⋅ 4 ⋅ 4a = a416 = ±2
nan-th root (radical) for n=3, n8 = 2
%percent1% = 1/10010% × 30 = 3
per-mille1‰ = 1/1000 = 0.1%10‰ × 30 = 0.3
ppmper-million1ppm = 1/100000010ppm × 30 = 0.0003
ppbper-billion1ppb = 1/100000000010ppb × 30 = 3×10-7
pptper-trillion1ppt = 10-1210ppt × 30 = 3×10-10

Geometry symbols

SymbolSymbol NameMeaning / definitionExample
angleformed by two rays∠ABC = 30°
measured angle ABC = 30°
spherical angle AOB = 30°
right angle= 90°α = 90°
°degree1 turn = 360°α = 60°
degdegree1 turn = 360degα = 60deg
primearcminute, 1° = 60′α = 60°59′
double primearcsecond, 1′ = 60″α = 60°59′59″
lineinfinite line 
ABline segmentline from point A to point B 
rayline that start from point A 
arcarc from point A to point B = 60°
perpendicularperpendicular lines (90° angle)AC ⊥ BC
| |parallelparallel linesAB | | CD
congruent toequivalence of geometric shapes and size∆ABC≅ ∆XYZ
~similaritysame shapes, not same size∆ABC~ ∆XYZ
Δtriangletriangle shapeΔABC≅ ΔBCD
|x-y|distancedistance between points x and yx-y | = 5
πpi constantπ = 3.141592654...
is the ratio between the circumference and diameter of a circle
c = πd = 2⋅πr
radradiansradians angle unit360° = 2π rad
cradiansradians angle unit360° = 2π c
gradgradians / gonsgrads angle unit360° = 400 grad
ggradians / gonsgrads angle unit360° = 400 g

Algebra symbols

SymbolSymbol NameMeaning / definitionExample
xx variableunknown value to findwhen 2x = 4, then x = 2
equivalenceidentical to 
equal by definitionequal by definition 
:=equal by definitionequal by definition 
~approximately equalweak approximation11 ~ 10
approximately equalapproximationsin(0.01) ≈ 0.01
proportional toproportional to
y ∝ x when y = kx, kconstant
lemniscateinfinity symbol 
much less thanmuch less than1 ≪ 1000000
much greater thanmuch greater than1000000 ≫ 1
( )parenthesescalculate expression inside first2 * (3+5) = 16
[ ]bracketscalculate expression inside first[(1+2)*(1+5)] = 18
{ }bracesset 
xfloor bracketsrounds number to lower integer⌊4.3⌋ = 4
xceiling bracketsrounds number to upper integer⌈4.3⌉ = 5
x!exclamation markfactorial4! = 1*2*3*4 = 24
x |single vertical barabsolute value| -5 | = 5
(x)function of xmaps values of x to f(x)(x) = 3x+5
(f ∘ g)function composition(f ∘ g) (x) = (g(x))(x)=3x,g(x)=x-1 ⇒(f ∘ g)(x)=3(x-1)
(a,b)open interval(a,b) = {x | a < x < b}x∈ (2,6)
[a,b]closed interval[a,b] = {x | a ≤ x ≤ b}x ∈ [2,6]
deltachange / differencet = t- t0
discriminantΔ = b2 - 4ac 
sigmasummation - sum of all values in range of series xi= x1+x2+...+xn
∑∑sigmadouble summation
capital piproduct - product of all values in range of series xi=x1∙x2∙...∙xn
ee constant / Euler's numbere = 2.718281828...e = lim (1+1/x)x , x→∞
γEuler-Mascheroni constantγ = 0.5772156649... 
φgolden ratiogolden ratio constant 
πpi constantπ = 3.141592654...
is the ratio between the circumference and diameter of a circle
c = πd = 2⋅πr

Linear Algebra Symbols

SymbolSymbol NameMeaning / definitionExample
·dotscalar product· b
×crossvector product× b
ABtensor producttensor product of A and BA ⊗ B
\langle x,y \rangleinner product  
[ ]bracketsmatrix of numbers 
( )parenthesesmatrix of numbers 
A |determinantdeterminant of matrix A 
det(A)determinantdeterminant of matrix A 
|| x ||double vertical barsnorm 
ATtransposematrix transpose(AT)ij = (A)ji
AHermitian matrixmatrix conjugate transpose(A)ij = (A)ji
A*Hermitian matrixmatrix conjugate transpose(A*)ij = (A)ji
A -1inverse matrixA A-1 = I 
rank(A)matrix rankrank of matrix Arank(A) = 3
dim(U)dimensiondimension of matrix Adim(U) = 3

Probability and statistics symbols

SymbolSymbol NameMeaning / definitionExample
P(A)probability functionprobability of event AP(A) = 0.5
P(A ∩ B)probability of events intersectionprobability that of events A and BP(AB) = 0.5
P(A ∪ B)probability of events unionprobability that of events A or BP(AB) = 0.5
P(A | B)conditional probability functionprobability of event A given event B occuredP(A | B) = 0.3
(x)probability density function (pdf)P( x  b) = ∫ f (x) dx 
F(x)cumulative distribution function (cdf)F(x) = P(X x) 
μpopulation meanmean of population valuesμ = 10
E(X)expectation valueexpected value of random variable XE(X) = 10
E(X | Y)conditional expectationexpected value of random variable X given YE(X | Y=2) = 5
var(X)variancevariance of random variable Xvar(X) = 4
σ2variancevariance of population valuesσ= 4
std(X)standard deviationstandard deviation of random variable Xstd(X) = 2
σXstandard deviationstandard deviation value of random variable XσX  = 2
medianmiddle value of random variable x
cov(X,Y)covariancecovariance of random variables X and Ycov(X,Y) = 4
corr(X,Y)correlationcorrelation of random variables X and Ycorr(X,Y) = 0.6
ρX,Ycorrelationcorrelation of random variables X and YρX,Y = 0.6
summationsummation - sum of all values in range of series
∑∑double summationdouble summation
Momodevalue that occurs most frequently in population 
MRmid-rangeMR = (xmax+xmin)/2 
Mdsample medianhalf the population is below this value 
Q1lower / first quartile25% of population are below this value 
Q2median / second quartile50% of population are below this value = median of samples 
Q3upper / third quartile75% of population are below this value 
xsample meanaverage / arithmetic meanx = (2+5+9) / 3 = 5.333
s 2sample variancepopulation samples variance estimators 2 = 4
ssample standard deviationpopulation samples standard deviation estimators = 2
zxstandard scorezx = (x-x) / sx 
~distribution of Xdistribution of random variable X~ N(0,3)
N(μ,σ2)normal distributiongaussian distribution~ N(0,3)
U(a,b)uniform distributionequal probability in range a,b ~ U(0,3)
exp(λ)exponential distribution(x) = λe-λx , x≥0 
gamma(c, λ)gamma distribution(x) = λ c xc-1e-λx / Γ(c), x≥0 
χ 2(k)chi-square distribution(x) = xk/2-1e-x/2 / ( 2k/2 Γ(k/2) ) 
(k1, k2)F distribution  
Bin(n,p)binomial distribution(k) = nCk pk(1-p)n-k 
Poisson(λ)Poisson distribution(k) = λke-λ / k! 
Geom(p)geometric distribution(k) =  p(1-p) k 
HG(N,K,n)hyper-geometric distribution  
Bern(p)Bernoulli distribution  

Combinatorics Symbols

SymbolSymbol NameMeaning / definitionExample
n!factorialn! = 1⋅2⋅3⋅...⋅n5! = 1⋅2⋅3⋅4⋅5 = 120
nPkpermutation_{n}P_{k}=\frac{n!}{(n-k)!}5P3 = 5! / (5-3)! = 60
nCk

combination_{n}C_{k}=\binom{n}{k}=\frac{n!}{k!(n-k)!}5C3 = 5!/[3!(5-3)!]=10

Set theory symbols

SymbolSymbol NameMeaning / definitionExample
{ }seta collection of elementsA = {3,7,9,14},
B = {9,14,28}
A ∩ Bintersectionobjects that belong to set A and set BA ∩ B = {9,14}
A ∪ Bunionobjects that belong to set A or set BA ∪ B = {3,7,9,14,28}
A ⊆ BsubsetA is a subset of B. set A is included in set B.{9,14,28} ⊆ {9,14,28}
A ⊂ Bproper subset / strict subsetA is a subset of B, but A is not equal to B.{9,14} ⊂ {9,14,28}
A ⊄ Bnot subsetset A is not a subset of set B{9,66} ⊄ {9,14,28}
A ⊇ BsupersetA is a superset of B. set A includes set B{9,14,28} ⊇ {9,14,28}
A ⊃ Bproper superset / strict supersetA is a superset of B, but B is not equal to A.{9,14,28} ⊃ {9,14}
A ⊅ Bnot supersetset A is not a superset of set B{9,14,28} ⊅ {9,66}
2Apower setall subsets of A 
\mathcal{P}(A)power setall subsets of A 
A = Bequalityboth sets have the same membersA={3,9,14},
B={3,9,14},
A=B
Accomplementall the objects that do not belong to set A 
A \ Brelative complementobjects that belong to A and not to BA = {3,9,14},
B = {1,2,3},
A-B = {9,14}
A - Brelative complementobjects that belong to A and not to BA = {3,9,14},
B = {1,2,3},
A-B = {9,14}
A ∆ Bsymmetric differenceobjects that belong to A or B but not to their intersectionA = {3,9,14},
B = {1,2,3},
A ∆ B = {1,2,9,14}
A ⊖ Bsymmetric differenceobjects that belong to A or B but not to their intersectionA = {3,9,14},
B = {1,2,3},
A ⊖ B = {1,2,9,14}
a∈Aelement ofset membership A={3,9,14}, 3 ∈ A
x∉Anot element ofno set membershipA={3,9,14}, 1 ∉ A
(a,b)ordered paircollection of 2 elements 
A×Bcartesian productset of all ordered pairs from A and B 
|A|cardinalitythe number of elements of set AA={3,9,14}, |A|=3
#Acardinalitythe number of elements of set AA={3,9,14}, #A=3
aleph-nullinfinite cardinality of natural numbers set 
aleph-onecardinality of countable ordinal numbers set 
Øempty setØ = { }C = {Ø}
\mathbb{U}universal setset of all possible values 
\mathbb{N}0natural numbers / whole numbers  set (with zero)\mathbb{N}0 = {0,1,2,3,4,...}0 ∈ \mathbb{N}0
\mathbb{N}1natural numbers / whole numbers  set (without zero)\mathbb{N}1 = {1,2,3,4,5,...}6 ∈ \mathbb{N}1
\mathbb{Z}integer numbers set\mathbb{Z} = {...-3,-2,-1,0,1,2,3,...}-6 ∈ \mathbb{Z}
\mathbb{Q}rational numbers set\mathbb{Q} = {| x=a/ba,b\mathbb{Z}}2/6 ∈ \mathbb{Q}
\mathbb{R}real numbers set\mathbb{R} = {x | -∞ < x <∞}6.343434∈\mathbb{R}
\mathbb{C}complex numbers set\mathbb{C} = {| z=a+bi, -∞<a<∞,      -∞<b<∞}6+2i ∈ \mathbb{C}

Logic symbols

SymbolSymbol NameMeaning / definitionExample
andandx  y
^caret / circumflexandx ^ y
&ampersandandx & y
+plusorx + y
reversed caretorx ∨ y
|vertical lineorx | y
x'single quotenot - negationx'
xbarnot - negationx
¬notnot - negation¬ x
!exclamation marknot - negationx
circled plus / oplusexclusive or - xorx ⊕ y
~tildenegationx
implies  
equivalentif and only if (iff) 
equivalentif and only if (iff) 
for all  
there exists  
there does not exists  
therefore  
because / since  

Calculus & analysis symbols

SymbolSymbol NameMeaning / definitionExample
\lim_{x\to x0}f(x)limitlimit value of a function 
εepsilonrepresents a very small number, near zeroε  0
ee constant / Euler's numbere = 2.718281828...e = lim (1+1/x)xx→∞
y 'derivativederivative - Lagrange's notation(3x3)' = 9x2
y ''second derivativederivative of derivative(3x3)'' = 18x
y(n)nth derivativen times derivation(3x3)(3) = 18
\frac{dy}{dx}derivativederivative - Leibniz's notationd(3x3)/dx = 9x2
\frac{d^2y}{dx^2}second derivativederivative of derivatived2(3x3)/dx2 = 18x
\frac{d^ny}{dx^n}nth derivativen times derivation 
\dot{y}time derivativederivative by time - Newton's notation 
time second derivativederivative of derivative 
Dyderivativederivative - Euler's notation 
Dx2ysecond derivativederivative of derivative 
\frac{\partial f(x,y)}{\partial x}partial derivative ∂(x2+y2)/∂x = 2x
integralopposite to derivation∫ f(x)dx
∫∫double integralintegration of function of 2 variables∫∫ f(x,y)dxdy
∫∫∫triple integralintegration of function of 3 variables∫∫∫ f(x,y,z)dxdydz
closed contour / line integral  
closed surface integral  
closed volume integral  
[a,b]closed interval[a,b] = {| a  x  b} 
(a,b)open interval(a,b) = {| a < x < b} 
iimaginary uniti ≡ √-1z = 3 + 2i
z*complex conjugate= a+bi → z*=a-biz* = 3 - 2i
zcomplex conjugate= a+bi → = a-biz = 3 - 2i
nabla / delgradient / divergence operatorf (x,y,z)
vector  
unit vector  
* yconvolutiony(t) = x(t) * h(t) 
Laplace transformF(s) = {(t)} 
Fourier transformX(ω) = {(t)} 
δdelta function  
lemniscateinfinity symbol 

Numeral symbols

NameEuropeanRomanHindu ArabicHebrew
zero0 ٠ 
one1I١א
two2II٢ב
three3III٣ג
four4IV٤ד
five5V٥ה
six6VI٦ו
seven7VII٧ז
eight8VIII٨ח
nine9IX٩ט
ten10X١٠י
eleven11XI١١יא
twelve12XII١٢יב
thirteen13XIII١٣יג
fourteen14XIV١٤יד
fifteen15XV١٥טו
sixteen16XVI١٦טז
seventeen17XVII١٧יז
eighteen18XVIII١٨יח
nineteen19XIX١٩יט
twenty20XX٢٠כ
thirty30XXX٣٠ל
forty40XL٤٠מ
fifty50L٥٠נ
sixty60LX٦٠ס
seventy70LXX٧٠ע
eighty80LXXX٨٠פ
ninety90XC٩٠צ
one hundred100C١٠٠ק

Greek alphabet letters

Upper Case LetterLower Case LetterGreek Letter NameEnglish EquivalentLetter Name Pronounce
ΑαAlphaaal-fa
ΒβBetabbe-ta
ΓγGammagga-ma
ΔδDeltaddel-ta
ΕεEpsiloneep-si-lon
ΖζZetazze-ta
ΗηEtaheh-ta
ΘθThetathte-ta
ΙιIotaiio-ta
ΚκKappakka-pa
ΛλLambdallam-da
ΜμMumm-yoo
ΝνNunnoo
ΞξXixx-ee
ΟοOmicronoo-mee-c-ron
ΠπPippa-yee
ΡρRhorrow
ΣσSigmassig-ma
ΤτTautta-oo
ΥυUpsilonuoo-psi-lon
ΦφPhiphf-ee
ΧχChichkh-ee
ΨψPsipsp-see
ΩωOmegaoo-me-ga

Roman numerals

NumberRoman numeral
0not defined
1I
2II
3III
4IV
5V
6VI
7VII
8VIII
9IX
10X
11XI
12XII
13XIII
14XIV
15XV
16XVI
17XVII
18XVIII
19XIX
20XX
30XXX
40XL
50L
60LX
70LXX
80LXXX
90XC
100C
200CC
300CCC
400CD
500D
600DC
700DCC
800DCCC
900CM
1000M
5000V
10000X
50000L
100000C
500000D
1000000M


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