Returned 97 matches (100 formulae, 81 docs)
    Lookup 3.594 ms, Re-ranking 102.591 ms
    Found 41415 tuple postings, 32272 formulae, 9946 documents
[ formulas ] [ documents ] [ documents-by-formula ]

N = 0.5 - log 2 ( Frequency of this item  Frequency of most common item )
Doc 1
1.0000, 1.0000
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000014/Articles/Word_lists_by_frequency.html
- log 10 ( 1 + 2 d 365 )
Doc 2
0.1505, 0.2426
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000009/Articles/Qualitative_variation.html
log ( x ) = - log ( 1 x )
Doc 3
0.1458, 0.2917
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000002/Articles/Gaussian_function.html
Doc 3
0.1458, 0.2917
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000002/Articles/Gaussian_function.html
d = 69 + 12 log 2 ( f 440 Hz ) .
Doc 4
0.1440, 0.1440
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000007/Articles/MIDI_Tuning_Standard.html
log 2 ( n )
Doc 5
0.1429, 0.1429
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000003/Articles/Self-balancing_binary_search_tree.html
= lim N N b log 2 ( A N W + 1 )
Doc 6
0.1374, 0.2535
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000005/Articles/Steering_law.html
Δ n ( s ) = { x n s } - log 2 ( 1 + s )
Doc 7
0.1351, 0.1351
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000006/Articles/Gauss–Kuzmin_distribution.html
M = log 2 ( R / G ) = log 2 ( R ) - log 2 ( G )
Doc 8
0.1299, 0.1299
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000009/Articles/MA_plot.html
log ( x / y ) = log ( x ) - log ( y )
Doc 9
0.1284, 0.1284
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000001/Articles/Slide_rule.html
Δ n ( s ) = { x n s } - log 2 ( 1 + s ) ,
Doc 10
0.1282, 0.1282
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000014/Articles/Rodion_Kuzmin.html
L N = 40 + 10 log 2 ( N )
Doc 11
0.1277, 0.1277
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000002/Articles/Sone.html
[ Fe / H ] = log 10 ( N Fe N H ) star - log 10 ( N Fe N H ) sun
Doc 12
0.1272, 0.3766
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000004/Articles/Metallicity.html
[ O / Fe ] = log 10 ( N O N Fe ) star - log 10 ( N O N Fe ) sun
Doc 12
0.1272, 0.3766
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000004/Articles/Metallicity.html
length ( c k ) - log 2 ( p k )
Doc 13
0.1237, 0.1237
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000003/Articles/Quantization_(signal_processing).html
- log ( t )
Doc 14
0.1231, 0.4100
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000005/Articles/Copula_(probability_theory).html
- log ( x )
Doc 15
0.1231, 0.2231
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000004/Articles/Convex_conjugate.html
2 - log 2 ( 2 ) = 3 2
Doc 16
0.1224, 0.5412
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000006/Articles/List_of_fractals_by_Hausdorff_dimension.html
[ M / H ] = log 10 ( N M N H ) star - log 10 ( N M N H ) sun .
Doc 12
0.1272, 0.3766
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000004/Articles/Metallicity.html
r = 0.5 + μ 2 , l = 4
Doc 17
0.1207, 0.1207
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000005/Articles/Lenstra–Lenstra–Lovász_lattice_basis_reduction_algorithm.html
A = - log ( V d c V e x )
Doc 18
0.1207, 0.1207
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000002/Articles/Magnetic_circular_dichroism.html
log 2 ( 1 2 ) = - 1 ,
Doc 19
0.1205, 0.3156
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000001/Articles/Logarithm.html
log 2 ( 0 ) = - 1
Doc 21
0.1176, 0.2024
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000002/Articles/Binary_logarithm.html
φ ( r ) log 2 ( n )
Doc 20
0.1176, 0.2152
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000003/Articles/AKS_primality_test.html
length ( E ) = - log 2 ( P ( E ) )
Doc 22
0.1176, 0.2114
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000002/Articles/Minimum_message_length.html
log ( n )
Doc 23
0.1176, 0.1176
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000001/Articles/Binary_heap.html
N c = 10 N - d ( 10 m - 1 ) ,
Doc 25
0.1167, 0.1167
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000013/Articles/Transposable_integer.html
log b ( x y ) = log b ( x ) - log b ( y )
Doc 19
0.1205, 0.3156
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000001/Articles/Logarithm.html
Doc 24
0.1167, 0.1951
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000002/Articles/Identity_(mathematics).html
Doc 26
0.1167, 0.1167
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000001/Articles/List_of_logarithmic_identities.html
= lim N i = 1 N b log 2 ( A / N W + 1 )
Doc 6
0.1374, 0.2535
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000005/Articles/Steering_law.html
2 log 2 ( x ) + 1
Doc 27
0.1149, 0.1149
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000001/Articles/Elias_gamma_coding.html
( - log ( t ) ) θ
Doc 14
0.1231, 0.4100
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000005/Articles/Copula_(probability_theory).html
ID = log 2 ( 2 D W )
Doc 28
0.1136, 0.2107
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000001/Articles/Fitts's_law.html
- log 2 P ( x )
Doc 29
0.1127, 0.1127
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000003/Articles/Minimum_description_length.html
log 5 ( 10 3 )
Doc 16
0.1224, 0.5412
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000006/Articles/List_of_fractals_by_Hausdorff_dimension.html
K - 1 = 3 5 d L L = log ( 5 3 )
Doc 30
0.1120, 0.1120
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000002/Articles/Principle_of_indifference.html
θ Δ = θ 1 ( t ) - θ 2 ( t ) .
Doc 31
0.1111, 0.1111
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000001/Articles/Phase-locked_loop.html
log ( X n n )
Doc 32
0.1111, 0.1111
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000006/Articles/Delta_method.html
2 - log b ( a )
Doc 16
0.1224, 0.5412
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000006/Articles/List_of_fractals_by_Hausdorff_dimension.html
f ( n ) = n + log 2 ( n + log 2 n ) .
Doc 33
0.1111, 0.1111
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000007/Articles/Polite_number.html
1 2 = ν 2 ( a ) - ν 2 ( b ) ,
Doc 34
0.1101, 0.1101
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000006/Articles/Singly_and_doubly_even.html
2 + log 2 ( 1 2 ) = 1
Doc 16
0.1224, 0.5412
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000006/Articles/List_of_fractals_by_Hausdorff_dimension.html
number of octaves = log 2 ( 13 4 ) = 1.7
Doc 35
0.1099, 0.2163
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000013/Articles/Octave_(electronics).html
10 log ( 0.02 0.98 )
Doc 37
0.1096, 0.1096
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000001/Articles/Carson_bandwidth_rule.html
H = - log 2 w
Doc 38
0.1096, 0.1096
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000007/Articles/Blancmange_curve.html
N = u 2
Doc 36
0.1096, 0.1096
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000005/Articles/Z_function.html
p = 69 + 12 log 2 ( f / 440 )
Doc 39
0.1091, 0.1091
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000004/Articles/Modulatory_space.html
Doc 40
0.1091, 0.1091
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000003/Articles/Pitch_class.html
- log ( b - x )
Doc 41
0.1081, 0.1081
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000007/Articles/Barrier_function.html
l ( q ) = l o g b ( q ) + 1
Doc 42
0.1069, 0.1069
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000009/Articles/Concatenation_(mathematics).html
N ~ = 2 m - 1
Doc 43
0.1067, 0.1067
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000012/Articles/German_tank_problem.html
octaves = log 2 ( f 2 f 1 )
Doc 35
0.1099, 0.2163
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000013/Articles/Octave_(electronics).html
log a ( 1 x - 1 )
Doc 44
0.1053, 0.1053
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000013/Articles/List_of_derivatives_and_integrals_in_alternative_calculi.html
= log 2 ( depth ( v ) )
Doc 45
0.1042, 0.1042
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000015/Articles/Level_ancestor_problem.html
N = 1 ϵ
Doc 46
0.1039, 0.1039
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000002/Articles/Limit_of_a_sequence.html
N = 2 k n - 1
Doc 47
0.1039, 0.1039
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000013/Articles/Elliptic_curve_primality.html
h log d ( n + 1 2 ) .
Doc 48
0.1034, 0.1034
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000001/Articles/B-tree.html
p H = p K a + log ( [ base ] [ acid ] )
Doc 49
0.1014, 0.1014
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000003/Articles/Titration_curve.html
π - arccos ( 1 3 )
Doc 51
0.1013, 0.1013
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000008/Articles/Table_of_polyhedron_dihedral_angles.html
log ( 2 ) log ( 8 3 )
Doc 50
0.1013, 0.1977
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000016/Articles/Draft:List_of_shape_topics_in_various_fields.html
( 1 - log ( γ min ) )
Doc 52
0.1000, 0.1000
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000016/Articles/Draft:Hierarchical_testing_of_variables_in_high-dimensional_datasets.html
- log ( 1 - e x )
Doc 15
0.1231, 0.2231
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000004/Articles/Convex_conjugate.html
- log ( p i , j )
Doc 53
0.1000, 0.1000
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000007/Articles/Position_weight_matrix.html
pH = p K a + log 10 ( [ B ] [ BH + ] )
Doc 54
0.0993, 0.3972
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000003/Articles/Henderson–Hasselbalch_equation.html
pH = p K a + log 10 ( [ A - ] [ HA ] )
Doc 54
0.0993, 0.3972
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000003/Articles/Henderson–Hasselbalch_equation.html
Doc 54
0.0993, 0.3972
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000003/Articles/Henderson–Hasselbalch_equation.html
pOH = p K b + log 10 ( [ BH + ] [ B ] )
Doc 54
0.0993, 0.3972
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000003/Articles/Henderson–Hasselbalch_equation.html
R T = a + b log 2 ( n + 1 )
Doc 56
0.0992, 0.0992
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000007/Articles/Mental_chronometry.html
p ( x ) = p 1 ( x ) - p 2 ( x ) ,
Doc 55
0.0992, 0.0992
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000006/Articles/Schwartz–Zippel_lemma.html
log ( k k 0 ) = m Y
Doc 57
0.0988, 0.0988
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000002/Articles/SN1_reaction.html
ln ( k ) = ln ( A ) - E a R ( 1 T )
Doc 58
0.0986, 0.1972
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000010/Articles/Arrhenius_plot.html
Doc 58
0.0986, 0.1972
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000010/Articles/Arrhenius_plot.html
- log ( exp ( - θ t ) - 1 exp ( - θ ) - 1 )
Doc 14
0.1231, 0.4100
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000005/Articles/Copula_(probability_theory).html
log 10 ( k k 0 ) = N +
Doc 59
0.0976, 0.1951
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000001/Articles/Nucleophile.html
φ ( r ) log ( n )
Doc 20
0.1176, 0.2152
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000003/Articles/AKS_primality_test.html
- log 2 p ( X = x )
Doc 61
0.0976, 0.0976
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000008/Articles/Pointwise_mutual_information.html
log 10 ( k k 0 ) = s n
Doc 59
0.0976, 0.1951
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000001/Articles/Nucleophile.html
Doc 60
0.0976, 0.0976
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000015/Articles/Edwards_equation.html
I D = log 2 ( D W + 1 )
Doc 28
0.1136, 0.2107
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000001/Articles/Fitts's_law.html
N = N 1 + x N 2
Doc 62
0.0964, 0.0964
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000006/Articles/Flory–Huggins_solution_theory.html
log ( 10 3 ) log ( 5 )
Doc 50
0.1013, 0.1977
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000016/Articles/Draft:List_of_shape_topics_in_various_fields.html
[ α / F e ] = log 10 ( N α N F e ) S t a r - log 10 ( N α N F e ) S u n
Doc 63
0.0961, 0.0961
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000002/Articles/Alpha_process.html
ApEn = log ( Φ 2 ( 3 ) ) - log ( Φ 3 ( 3 ) ) 0.000010997
Doc 64
0.0952, 0.0952
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000014/Articles/Approximate_entropy.html
α s = arctan ( b R ) - arctan ( b R + r s )
Doc 65
0.0946, 0.0946
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000013/Articles/Contrast_transfer_function.html
length ( H and E ) = - log 2 ( P ( H and E ) )
Doc 22
0.1176, 0.2114
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000002/Articles/Minimum_message_length.html
n = 12 log 2 ( f 440 Hz ) + 49
Doc 66
0.0926, 0.0926
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000005/Articles/Piano_key_frequencies.html
T = a + b log 2 ( 1 + D W )
Doc 67
0.0923, 0.0923
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000003/Articles/Point_and_click.html
L p 2 = L p 1 + 20 log 10 ( r 1 r 2 ) dB .
Doc 69
0.0921, 0.0921
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000003/Articles/Sound_pressure.html
I p = - 0.5 + 0.5 ( I d - M u M u )
Doc 2
0.1505, 0.2426
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000009/Articles/Qualitative_variation.html
Doc 68
0.0921, 0.1763
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000014/Articles/Taylor's_law.html
N = 8 ln ( 2 ) ( t R W 1 / 2 ) 2
Doc 70
0.0909, 0.0909
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000006/Articles/Van_Deemter_equation.html
T d ( X , Y ) = - log 2 ( T s ( X , Y ) )
Doc 71
0.0896, 0.0896
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000006/Articles/Jaccard_index.html
α ( t ) = Ω t - arcsin ( E R sin ( Ω t ) )
Doc 72
0.0892, 0.0892
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000004/Articles/Equant.html
m M o o n = 0.25 + 2.5 log 10 ( 3 2 0.00257 2 ) = - 12.26
Doc 73
0.0875, 0.0875
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000001/Articles/Absolute_magnitude.html
b = tan - 1 ( v u ) - 1 2 ( v u + 1 ) .
Doc 74
0.0864, 0.0864
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000005/Articles/Stieltjes_constants.html
- log ( 2 ) log ( 1 - γ 2 )
Doc 16
0.1224, 0.5412
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000006/Articles/List_of_fractals_by_Hausdorff_dimension.html
log 2 ( n ) = 31 - nlz ( n ) .
Doc 21
0.1176, 0.2024
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000002/Articles/Binary_logarithm.html
a = - log ( 1 - w 2 )
Doc 68
0.0921, 0.1763
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000014/Articles/Taylor's_law.html
d d p H b ( p ) = - logit 2 ( p ) = - log 2 ( p 1 - p ) .
Doc 75
0.0822, 0.0822
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000008/Articles/Binary_entropy_function.html
Y = exp ( ϵ k T ) - k 2
Doc 76
0.0800, 0.0800
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000001/Articles/Equation_of_state.html
N = log 2 ( M ) .
Doc 77
0.0789, 0.0789
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000001/Articles/Baud.html
log 2 ( 16 ) = log 2 ( 64 4 ) = log 2 ( 64 ) - log 2 ( 4 ) = 6 - 2 = 4
Doc 19
0.1205, 0.3156
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000001/Articles/Logarithm.html
Doc 24
0.1167, 0.1951
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000002/Articles/Identity_(mathematics).html
k = log 2 n
Doc 78
0.0769, 0.0769
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000008/Articles/Convergence_in_measure.html
log ( 1 - θ ( 1 - t ) t )
Doc 14
0.1231, 0.4100
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000005/Articles/Copula_(probability_theory).html
( 1 R ) c = R - Re ( R )
Doc 79
0.0741, 0.0741
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000016/Articles/Metallic_mean.html
M = log 10 ( A T ) max + σ ( Δ )
Doc 80
0.0741, 0.0741
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000012/Articles/Surface_wave_magnitude.html
log 10 ( N S ) = - k log 10 ( r ) + m
Doc 81
0.0625, 0.0625
testing/NTCIR12_MathIR_WikiCorpus_v2.1.0/MathTagArticles/wpmath0000013/Articles/Sholl_analysis.html