Returned 94 matches (100 formulae, 58 docs)
    Lookup 5.111 ms, Re-ranking 698.854 ms
    Found 40064 tuple postings, 23814 formulae, 7117 documents
[ formulas ] [ documents ] [ documents-by-formula ]

1.0000
× 𝐁 = μ 0 𝐉 + μ 0 ϵ 0 t 𝐄 Maxwell s term

0.2019
× 𝐁 = μ 0 𝐉

0.1849
× 𝐁 = μ 0 𝐉 + 1 c 2 𝐄 t

0.1818
× 𝐁 = μ 0 𝐉 + μ 0 ε 0 𝐄 t
× 𝐁 = μ 0 𝐉 + μ 0 ϵ 0 𝐄 t

0.1759
× 𝐁 = μ 0 𝐉 + μ 0 ε 0 𝐄 t ,

0.1544
× 𝐁 = μ 𝐉 + μ ϵ 𝐄 t .

0.1538
× 𝐁 = μ 0 𝐣

0.1395
× 𝐁 𝟏 = μ 0 𝐉 𝟏 - i ω ϵ 0 μ 0 𝐄 𝟏

0.1339
2 𝐄 = μ 0 ϵ 0 2 𝐄 t 2

0.1308
2 𝐁 = μ 0 ϵ 0 2 𝐁 t 2 .

0.1283
× 𝐁 = μ 0 ϵ 0 𝐄 t ( 4 )

0.1273
2 𝐄 - μ 0 ϵ 0 2 𝐄 t 2 = 0.

0.1111
× 𝐁 = 1 c 𝐉 + 1 c 𝐄 t

0.1107
× 𝐁 = μ 0 ( 𝐉 + ε 0 𝐄 t )

0.1088
× 𝐁 = 4 π c 𝐉 + 1 c 𝐄 t

0.1028
𝐁 = μ 0 ρ m

0.1014
× B = μ 0 J

0.1013
× 𝐁 = 1 ϵ 0 c 2 𝐉 + 1 c 2 𝐄 t

0.0982
× B = μ 0 J ,

0.0976
h t Change in mass over time + h u ¯ x + h v ¯ y Total spatial variation of x,y mass fluxes = 0

0.0930
× 𝐁 = μ 0 ε 0 𝐄 t = 1 c 2 𝐄 t

0.0926
𝐉 d = ϵ 0 𝐄 t

0.0849
× 𝐁 / μ 0 = × ( 𝐇 + 𝐌 )

0.0824
2 E - μ 0 ε 0 2 E t 2 = 0.

0.0800
𝐁 = μ 0 ( 𝐇 + 𝐌 ) = 0 ,

0.0797
𝐀 = - μ 0 ε 0 φ t

0.0797
× 𝐁 = 1 c 𝐄 t + 1 c 𝐉

0.0761
× 𝐁 / μ 0 = 𝐉 + ε 0 𝐄 t

0.0757
× ( - 𝐁 t ) = - t ( × 𝐁 ) = - μ 0 ϵ 0 2 𝐄 t 2 ( 7 )

0.0748
× 𝐇 = 1 c 𝐉 f + 1 c 𝐃 t

0.0733
× 𝐇 = 4 π c 𝐉 f + 1 c 𝐃 t

0.0711
𝐁 = μ 0 𝐇

0.0707
× 𝐁 = 0

0.0697
𝐁 = μ 0 𝐇 ,

0.0692
𝐤 0 E 0 + ω 0 μ 0 ε 0 E 0 t = 0.

0.0690
× 𝐁 = α 𝐁

0.0664
× 𝐁 = μ 0 𝐣 ; 𝐣 = 2 e m Re { ψ * ( - i - 2 e 𝐀 ) ψ }

0.0660
𝐁 = μ 0 ( 𝐇 + 𝐌 )

0.0655
× 𝐁 / μ 0 = 𝐉 f + 𝐉 bound + ε 0 𝐄 t

0.0653
s y m b o l τ = 𝐦 × 𝐁 = μ 0 𝐦 × 𝐇 ,

0.0648
𝐁 = μ 0 ( 𝐇 + 𝐌 ) .

0.0648
𝐒 = 𝐄 × 𝐁 / μ 0

0.0645
r ˙ × H = μ u + c

0.0633
× 𝐁 = 4 π 𝐣 c

0.0618
2 𝐀 - μ 0 ε 0 2 𝐀 t 2 = 2 𝐀 = - μ 0 𝐉

0.0606
× 𝐁 = 𝐄 t + 𝐉

0.0596
2 φ - μ 0 ε 0 2 φ t 2 = 2 φ = - ρ ε 0

0.0594
𝐀 = μ 0 𝐉

0.0588
× 𝐁 ^ = μ 0 𝐉 ^ + i μ 0 ε 0 ω 𝐄 ^ - B r r + d B ( 1 ) d r + B ( 1 ) r = μ 0 J + i ω μ 0 ε 0 E

0.0586
2 H z x 2 + 2 H z y 2 = μ ε 2 H z t 2

0.0574
𝐃 = ϵ 0 𝐄 , 𝐁 = μ 0 𝐇 .

0.0567
s y m b o l × B = μ 0 s y m b o l J D ,
s y m b o l × B = μ 0 s y m b o l J f ,

0.0566
k 0 E 0 z + ω 0 μ 0 ε 0 E 0 t - 1 2 i Δ E 0 = 0.

0.0560
× 𝐇 = 𝐉 f + 𝐃 t

0.0548
s y m b o l × ( s y m b o l × B ) = μ 0 ϵ 0 t s y m b o l × E .

0.0534
× 𝐁 = 4 π 𝐉 + 𝐄 t

0.0529
s y m b o l J D = ϵ 0 s y m b o l E t

0.0529
S 𝐁 d 𝐥 = μ 0 S ( 𝐉 + ϵ 0 𝐄 t ) d 𝐀

0.0509
1 c 2 2 𝐁 t 2 - 2 𝐁 = μ 0 × 𝐉 .

0.0508
2 λ - μ 0 ε 0 2 λ t 2 = - 𝐀 - μ 0 ε 0 φ t

0.0504
F z ¯ = μ ( z ) F z ,
f z ¯ = μ ( z ) f z ,

0.0484
1 c 2 2 𝐀 t 2 - 2 𝐀 = μ 0 𝐉

0.0476
× 𝐇 = 1 c 𝐃 t + 4 π c 𝐉 ,

0.0468
× 𝐁 = 1 c ( 4 π 𝐉 + 𝐄 t )

0.0459
× 𝐁 = 1 c ( 4 π 𝐉 + 𝐄 t ) .

0.0453
× 𝐇 = 4 π c 𝐉 f + 1 c 𝐃 t

0.0452
2 𝐀 - μ 0 ε 0 2 𝐀 t 2 = - μ 0 𝐉 + μ 0 ε 0 ( φ t )

0.0447
× 𝐁 = 1 c 2 ( 1 ϵ 0 𝐉 + 𝐄 t )

0.0438
× 𝐁 - 1 c 2 𝐄 t = μ 0 𝐉

0.0437
× 𝐄 = - 𝐁 t
× 𝐠 = - 𝐇 t

0.0435
E t 0 × 𝐀 = 𝐁 ,

0.0427
× 𝐇 = ε o 𝐄 t

0.0426
× 𝐄 = - 𝐁 t ,
× 𝐄 = - 𝐁 t .

0.0418
× 𝐇 = 𝐉 + 𝐃 t

0.0413
× 𝐄 = - 𝐁 t ( 2 )

0.0413
× 𝐄 = - 𝐁 t = 0

0.0410
× H = J free + D t
× 𝐇 = 𝐉 f + 𝐃 t

0.0407
× 𝐄 = - 𝐁 t .

0.0407
× 𝐇 = 𝐉 + 𝐃 t .

0.0405
× E = - B t ,

0.0403
× ( E + A t ) = 0

0.0398
× B = 1 c 2 E t .

0.0398
× H = 1 c D t

0.0398
× 𝐇 = 𝐉 f + t 𝐃 .

0.0398
× 𝐇 = 𝐉 f + 𝐃 t ,

0.0398
ρ ( 𝐯 t Unsteady acceleration + ( 𝐯 ) 𝐯 Convective acceleration ) Inertia = - p Pressure gradient + μ 2 𝐯 Viscosity + 𝐟 Other forces

0.0398
× 𝐄 = - 1 c 𝐁 t

0.0388
× 𝐄 = - 1 c 𝐁 t ,

0.0357
× ( E + i B ) = i t ( E + i B )

0.0350
× ( α 𝐁 ) = α ( × 𝐁 ) + α × 𝐁 = α 2 𝐁 + α × 𝐁

0.0348
𝐀 + ( 𝐀 + 1 c 2 φ t ) = μ 0 𝐉

0.0338
𝐁 = 0 , 𝐁 t + × 𝐄 = 0

0.0335
( s y m b o l 𝐄 - ρ ϵ 0 ) - c ( s y m b o l × 𝐁 - μ 0 ϵ 0 𝐄 t - μ 0 𝐉 ) + I ( s y m b o l × 𝐄 + 𝐁 t ) + I c ( s y m b o l 𝐁 ) = 0

0.0295
𝐄 = ρ ϵ 0 , × 𝐁 - 1 c 2 𝐄 t = μ 0 𝐉