Elemental Abundances

John Moore; Jia Zhou; Etienne Garand

Elemental Abundances

Elemental Abundance in Solar System Relative to Silicon. (Table for Earth below)

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Atom	Atomic No.	Abundance* (atoms/10⁶ atoms Si)	Log(abund)
H	1	27900000000	10.45
He	2	2720000000	9.43
Li	3	57.1	1.76
Be	4	0.73	-0.14
B	5	21.2	1.33
C	6	10100000	7
N	7	313000	5.5
O	8	23800000	7.38
F	9	843	2.93
Ne	10	3440000	6.54
Na	11	57400	4.76
Mg	12	1074000	6.03
Al	13	84900	4.93
Si	14	1000000	6
P	15	10400	4.02
S	16	515000	5.71
Cl	17	5240	3.72
Ar	18	101000	5
K	19	3770	3.58
Ca	20	61100	4.79
Sc	21	34.2	1.53
Ti	22	2400	3.38
V	23	293	2.47
Cr	24	13500	4.13
Mn	25	9550	3.98
Fe	26	900000	5.95
Co	27	2250	3.35
Ni	28	49300	4.69
Cu	29	522	2.72
Zn	30	1260	3.1
Ga	31	37.8	1.58
Ge	32	119	2.08
As	33	6.56	0.82
Se	34	62.1	1.79
Br	35	11.8	1.07
Kr	36	45	1.65
Rb	37	7.09	0.85
Sr	38	23.5	1.37
Y	39	4.64	0.67
Zr	40	11.4	1.06
Nb	41	0.698	-0.16
Mo	42	2.55	0.41
Tc	43
Ru	44	1.86	0.27
Rh	45	0.344	-0.46
Pd	46	1.39	0.14
Ag	47	0.486	-0.31
Cd	48	1.61	0.21
In	49	0.184	-0.74
Sn	50	3.82	0.58
Sb	51	0.309	-0.51
Te	52	4.81	0.68
I	53	0.9	-0.05
Xe	54	4.7	0.67
Cs	55	0.372	-0.43
Ba	56	4.49	0.65
La	57	0.446	-0.35
Ce	58	1.136	0.06
Pr	59	0.1669	-0.78
Nd	60	0.8279	-0.08
Pm	61
Sm	62	0.2282	-0.64
Eu	63	0.0973	-1.01
Gd	64	0.33	-0.48
Tb	65	0.0603	-1.22
Dy	66	0.3942	-0.4
Ho	67	0.0889	-1.05
Er	68	0.2508	-0.6
Tm	69	0.0378	-1.42
Yb	70	0.2479	-0.61
Lu	71	0.0367	-1.44
Hf	72	0.154	-0.81
Ta	73	0.0207	-1.68
W	74	0.133	-0.88
Re	75	0.0517	-1.29
Os	76	0.675	-0.17
Ir	77	0.661	-0.18
Pt	78	1.34	0.13
Au	79	0.187	-0.73
Hg	80	0.34	-0.47
Tl	81	0.184	-0.74
Pb	82	3.15	0.5
Bi	83	0.144	-0.84
Po	84
At	85
Rn	86
Fr	87
Ra	88
Ac	89
Th	90	0.0335	-1.47
Pa	91
U	92	0.009	-2.05
Np	93
Pu	94
Am	95
Cm	96
Bk	97
Cf	98
Es	99
Fm	100
Md	101
No	102
Lr	103
*Anders, Edward; Grevesse; Nicolas, Geochimica et Cosmochimica Acta 1989, 53, 197-214.

Elemental Abundance in Earth Crust

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Atom	Atomic No.	Abundance*
H	1	6.2
He	2	0
Li	3	4.1
Be	4	3.2
B	5	4
C	6	6.7
N	7	4.3
O	8	8.67
F	9	5.8
Ne	10	0
Na	11	7.36
Mg	12	7.51
Al	13	7.92
Si	14	8.43
P	15	6
S	16	5.8
Cl	17	5.3
Ar	18	1
K	19	6.96
Ca	20	7.72
Sc	21	4.5
Ti	22	6.7
V	23	5.4
Cr	24	5.3
Mn	25	6.1
Fe	26	7.84
Co	27	4.5
Ni	28	5
Cu	29	4.9
Zn	30	4.9
Ga	31	4.3
Ge	32	3.2
As	33	3.4
Se	34	1.7
Br	35	3.4
Kr	36	-1
Rb	37	4.5
Sr	38	5.4
Y	39	4.3
Zr	40	5
Nb	41	4
Mo	42	3
Tc	43
Ru	44	0
Rh	45	-1
Pd	46	0
Ag	47	1.9
Cd	48	2
In	49	1.7
Sn	50	3.4
Sb	51	2.3
Te	52	-1
I	53	2.7
Xe	54	-2
Cs	55	3
Ba	56	5.4
La	57	4.2
Ce	58	4.5
Pr	59	3.6
Nd	60	4.2
Pm	61
Sm	62	3.5
Eu	63	3
Gd	64	3.5
Tb	65	2.8
Dy	66	3.6
Ho	67	2.9
Er	68	3.3
Tm	69	2.5
Yb	70	3.3
Lu	71	2.5
Hf	72	3.5
Ta	73	3
W	74	3
Re	75	-0.3
Os	76	-1
Ir	77	-1
Pt	78	0
Au	79	0.5
Hg	80	2
Tl	81	2.6
Pb	82	3.9
Bi	83	-1
Po	84
At	85
Rn	86
Fr	87
Ra	88	-4
Ac	89
Th	90	3.6
Pa	91	-5
U	92	3
Np	93
Pu	94
Am	95
Cm	96
Bk	97
Cf	98
Es	99
Fm	100
Md	101
No	102
Lr	103
*log(mass fraction in ppb, that is μg/kg)

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Chemistry 109 Fall 2021 Copyright © by John Moore; Jia Zhou; and Etienne Garand is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License, except where otherwise noted.