0.1 Atomic masses

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Atomic masses
Atomic Number, Z	Name	Atomic Mass Number, A	Symbol	Atomic Mass (u)	Percent Abundance or Decay Mode	Half-life, t _1/2
0	neutron	1	$n$	1.008 665	$β^{-}$	10.37 min
1	Hydrogen	1	$^{1} H$	1.007 825	99.985%
	Deuterium	2	$^{2} H or D$	2.014 102	0.015%
	Tritium	3	$^{3} H or T$	3.016 050	$β^{-}$	12.33 y
2	Helium	3	$^{3} He$	3.016 030	$1 . 38 \times 10^{- 4} %$
		4	$^{4} He$	4.002 603	$≈100%$
3	Lithium	6	$^{6} Li$	6.015 121	7.5%
		7	$^{7} Li$	7.016 003	92.5%
4	Beryllium	7	$^{7} Be$	7.016 928	EC	53.29 d
		9	$^{9} Be$	9.012 182	100%
5	Boron	10	$^{10} B$	10.012 937	19.9%
		11	$^{11} B$	11.009 305	80.1%
6	Carbon	11	$^{11} C$	11.011 432	EC, $β^{+}$
		12	$^{12} C$	12.000 000	98.90%
		13	$^{13} C$	13.003 355	1.10%
		14	$^{14} C$	14.003 241	$β^{-}$	5730 y
7	Nitrogen	13	$^{13} N$	13.005 738	$β^{+}$	9.96 min
		14	$^{14} N$	14.003 074	99.63%
		15	$^{15} N$	15.000 108	0.37%
8	Oxygen	15	$^{15} O$	15.003 065	EC, $β^{+}$	122 s
		16	$^{16} O$	15.994 915	99.76%
		18	$^{18} O$	17.999 160	0.200%
9	Fluorine	18	$^{18} F$	18.000 937	EC, $β^{+}$	1.83 h
		19	$^{19} F$	18.998 403	100%
10	Neon	20	$^{20} Ne$	19.992 435	90.51%
		22	$^{22} Ne$	21.991 383	9.22%
11	Sodium	22	$^{22} Na$	21.994 434	$β^{+}$	2.602 y
		23	$^{23} Na$	22.989 767	100%
		24	$^{24} Na$	23.990 961	$β^{-}$	14.96 h
12	Magnesium	24	$^{24} Mg$	23.985 042	78.99%
13	Aluminum	27	$^{27} Al$	26.981 539	100%
14	Silicon	28	$^{28} Si$	27.976 927	92.23%	2.62h
		31	$^{31} Si$	30.975 362	$β^{-}$
15	Phosphorus	31	$^{31} P$	30.973 762	100%
		32	$^{32} P$	31.973 907	$β^{-}$	14.28 d
16	Sulfur	32	$^{32} S$	31.972 070	95.02%
		35	$^{35} S$	34.969 031	$β^{-}$	87.4 d
17	Chlorine	35	$^{35} Cl$	34.968 852	75.77%
		37	$^{37} Cl$	36.965 903	24.23%
18	Argon	40	$^{40} Ar$	39.962 384	99.60%
19	Potassium	39	$^{39} K$	38.963 707	93.26%
		40	$^{40} K$	39.963 999	0.0117%, EC, $β^{-}$	$1 . 28 \times 10^{9} y$
20	Calcium	40	$^{40} Ca$	39.962 591	96.94%
21	Scandium	45	$^{45} Sc$	44.955 910	100%
22	Titanium	48	$^{48} Ti$	47.947 947	73.8%
23	Vanadium	51	$^{51} V$	50.943 962	99.75%
24	Chromium	52	$^{52} Cr$	51.940 509	83.79%
25	Manganese	55	$^{55} Mn$	54.938 047	100%
26	Iron	56	$^{56} Fe$	55.934 939	91.72%
27	Cobalt	59	$^{59} Co$	58.933 198	100%
		60	$^{60} Co$	59.933 819	$β^{-}$	5.271 y
28	Nickel	58	$^{58} Ni$	57.935 346	68.27%
		60	$^{60} Ni$	59.930 788	26.10%
29	Copper	63	$^{63} Cu$	62.939 598	69.17%
		65	$^{65} Cu$	64.927 793	30.83%
30	Zinc	64	$^{64} Zn$	63.929 145	48.6%
		66	$^{66} Zn$	65.926 034	27.9%
31	Gallium	69	$^{69} Ga$	68.925 580	60.1%
32	Germanium	72	$^{72} Ge$	71.922 079	27.4%
		74	$^{74} Ge$	73.921 177	36.5%
33	Arsenic	75	$^{75} As$	74.921 594	100%
34	Selenium	80	$^{80} Se$	79.916 520	49.7%
35	Bromine	79	$^{79} Br$	78.918 336	50.69%
36	Krypton	84	$^{84} Kr$	83.911 507	57.0%
37	Rubidium	85	$^{85} Rb$	84.911 794	72.17%
38	Strontium	86	$^{86} Sr$	85.909 267	9.86%
		88	$^{88} Sr$	87.905 619	82.58%
		90	$^{90} Sr$	89.907 738	$β^{-}$	28.8 y
39	Yttrium	89	$^{89} Y$	88.905 849	100%
		90	$^{90} Y$	89.907 152	$β^{-}$	64.1 h
40	Zirconium	90	$^{90} Zr$	89.904 703	51.45%
41	Niobium	93	$^{93} Nb$	92.906 377	100%
42	Molybdenum	98	$^{98} Mo$	97.905 406	24.13%
43	Technetium	98	$^{98} Tc$	97.907 215	$β^{-}$	$4 . 2 \times 10^{6} y$
44	Ruthenium	102	$^{102} Ru$	101.904 348	31.6%
45	Rhodium	103	$^{103} Rh$	102.905 500	100%
46	Palladium	106	$^{106} Pd$	105.903 478	27.33%
47	Silver	107	$^{107} Ag$	106.905 092	51.84%
		109	$^{109} Ag$	108.904 757	48.16%
48	Cadmium	114	$^{114} Cd$	113.903 357	28.73%
49	Indium	115	$^{115} In$	114.903 880	95.7%, $β^{-}$	$4 . 4 \times 10^{14} y$
50	Tin	120	$^{120} Sn$	119.902 200	32.59%
51	Antimony	121	$^{121} Sb$	120.903 821	57.3%
52	Tellurium	130	$^{130} Te$	129.906 229	33.8%, $β^{-}$	$2 . 5 \times 10^{21} y$
53	Iodine	127	$^{127} I$	126.904 473	100%
		131	$^{131} I$	130.906 114	$β^{-}$	8.040 d
54	Xenon	132	$^{132} Xe$	131.904 144	26.9%
		136	$^{136} Xe$	135.907 214	8.9%
55	Cesium	133	$^{133} Cs$	132.905 429	100%
		134	$^{134} Cs$	133.906 696	EC, $β^{-}$	2.06 y
56	Barium	137	$^{137} Ba$	136.905 812	11.23%
		138	$^{138} Ba$	137.905 232	71.70%
57	Lanthanum	139	$^{139} La$	138.906 346	99.91%
58	Cerium	140	$^{140} Ce$	139.905 433	88.48%
59	Praseodymium	141	$^{141} Pr$	140.907 647	100%
60	Neodymium	142	$^{142} Nd$	141.907 719	27.13%
61	Promethium	145	$^{145} Pm$	144.912 743	EC, $α$	17.7 y
62	Samarium	152	$^{152} Sm$	151.919 729	26.7%
63	Europium	153	$^{153} Eu$	152.921 225	52.2%
64	Gadolinium	158	$^{158} Gd$	157.924 099	24.84%
65	Terbium	159	$^{159} Tb$	158.925 342	100%
66	Dysprosium	164	$^{164} Dy$	163.929 171	28.2%
67	Holmium	165	$^{165} Ho$	164.930 319	100%
68	Erbium	166	$^{166} Er$	165.930 290	33.6%
69	Thulium	169	$^{169} Tm$	168.934 212	100%
70	Ytterbium	174	$^{174} Yb$	173.938 859	31.8%
71	Lutecium	175	$^{175} Lu$	174.940 770	97.41%
72	Hafnium	180	$^{180} Hf$	179.946 545	35.10%
73	Tantalum	181	$^{181} Ta$	180.947 992	99.98%
74	Tungsten	184	$^{184} W$	183.950 928	30.67%
75	Rhenium	187	$^{187} Re$	186.955 744	62.6%, $β^{-}$	$4 . 6 \times 10^{10} y$
76	Osmium	191	$^{191} Os$	190.960 920	$β^{-}$	15.4 d
		192	$^{192} Os$	191.961 467	41.0%
77	Iridium	191	$^{191} Ir$	190.960 584	37.3%
		193	$^{193} Ir$	192.962 917	62.7%
78	Platinum	195	$^{195} Pt$	194.964 766	33.8%
79	Gold	197	$^{197} Au$	196.966 543	100%
		198	$^{198} Au$	197.968 217	$β^{-}$	2.696 d
80	Mercury	199	$^{199} Hg$	198.968 253	16.87%
		202	$^{202} Hg$	201.970 617	29.86%
81	Thallium	205	$^{205} Tl$	204.974 401	70.48%
82	Lead	206	$^{206} Pb$	205.974 440	24.1%
		207	$^{207} Pb$	206.975 872	22.1%
		208	$^{208} Pb$	207.976 627	52.4%
		210	$^{210} Pb$	209.984 163	$α, β^{-}$	22.3 y
		211	$^{211} Pb$	210.988 735	$β^{-}$	36.1 min
		212	$^{212} Pb$	211.991 871	$β^{-}$	10.64 h
83	Bismuth	209	$^{209} Bi$	208.980 374	100%
		211	$^{211} Bi$	210.987 255	$α, β^{-}$	2.14 min
84	Polonium	210	$^{210} Po$	209.982 848	$α$	138.38 d
85	Astatine	218	$^{218} At$	218.008 684	$α, β^{-}$	1.6 s
86	Radon	222	$^{222} Rn$	222.017 570	$α$	3.82 d
87	Francium	223	$^{223} Fr$	223.019 733	$α, β^{-}$	21.8 min
88	Radium	226	$^{226} Ra$	226.025 402	$α$	$1 . 60 \times 10^{3} y$
89	Actinium	227	$^{227} Ac$	227.027 750	$α, β^{-}$	21.8 y
90	Thorium	228	$^{228} Th$	228.028 715	$α$	1.91 y
		232	$^{232} Th$	232.038 054	100%, $α$	$1 . 41 \times 10^{10} y$
91	Protactinium	231	$^{231} Pa$	231.035 880	$α$	$3 . 28 \times 10^{4} y$
92	Uranium	233	$^{233} U$	233.039 628	$α$	$1 . 59 \times 10^{3} y$
		235	$^{235} U$	235.043 924	0.720%, $α$	$7 . 04 \times 10^{8} y$
		236	$^{236} U$	236.045 562	$α$	$2 . 34 \times 10^{7} y$
		238	$^{238} U$	238.050 784	99.2745%, $α$	$4 . 47 \times 10^{9} y$
		239	$^{239} U$	239.054 289	$β^{-}$	23.5 min
93	Neptunium	239	$^{239} Np$	239.052 933	$β^{-}$	2.355 d
94	Plutonium	239	$^{239} Pu$	239.052 157	$α$	$2 . 41 \times 10^{4} y$
95	Americium	243	$^{243} Am$	243.061 375	$α,$ fission	$7 . 37 \times 10^{3} y$
96	Curium	245	$^{245} Cm$	245.065 483	$α$	$8 . 50 \times 10^{3} y$
97	Berkelium	247	$^{247} Bk$	247.070 300	$α$	$1 . 38 \times 10^{3} y$
98	Californium	249	$^{249} Cf$	249.074 844	$α$	351 y
99	Einsteinium	254	$^{254} Es$	254.088 019	$α, β^{-}$	276 d
100	Fermium	253	$^{253} Fm$	253.085 173	EC, $α$	3.00 d
101	Mendelevium	255	$^{255} Md$	255.091 081	EC, $α$	27 min
102	Nobelium	255	$^{255} No$	255.093 260	EC, $α$	3.1 min
103	Lawrencium	257	$^{257} Lr$	257.099 480	EC, $α$	0.646 s
104	Rutherfordium	261	$^{261} Rf$	261.108 690	$α$	1.08 min
105	Dubnium	262	$^{262} Db$	262.113 760	$α,$ fission	34 s
106	Seaborgium	263	$^{263} Sg$	263.11 86	$α,$ fission	0.8 s
107	Bohrium	262	$^{262} Bh$	262.123 1	$α$	0.102 s
108	Hassium	264	$^{264} Hs$	264.128 5	$α$	0.08 ms
109	Meitnerium	266	$^{266} Mt$	266.137 8	$α$	3.4 ms

Questions & Answers

differentiate between demand and supply giving examples

Lambiv Reply

differentiated between demand and supply using examples

Lambiv

what is labour ?

Lambiv

how will I do?

Venny Reply

how is the graph works?I don't fully understand

Rezat Reply

information

Eliyee

devaluation

Eliyee

WARKISA

hi guys good evening to all

Lambiv

multiple choice question

Aster Reply

appreciation

Eliyee

explain perfect market

Lindiwe Reply

In economics, a perfect market refers to a theoretical construct where all participants have perfect information, goods are homogenous, there are no barriers to entry or exit, and prices are determined solely by supply and demand. It's an idealized model used for analysis,

Ezea

What is ceteris paribus?

Shukri Reply

other things being equal

AI-Robot

When MP₁ becomes negative, TP start to decline. Extuples Suppose that the short-run production function of certain cut-flower firm is given by: Q=4KL-0.6K2 - 0.112 • Where is quantity of cut flower produced, I is labour input and K is fixed capital input (K-5). Determine the average product of lab

Kelo

Extuples Suppose that the short-run production function of certain cut-flower firm is given by: Q=4KL-0.6K2 - 0.112 • Where is quantity of cut flower produced, I is labour input and K is fixed capital input (K-5). Determine the average product of labour (APL) and marginal product of labour (MPL)

Kelo

yes,thank you

Shukri

Can I ask you other question?

Shukri

what is monopoly mean?

Habtamu Reply

What is different between quantity demand and demand?

Shukri Reply

Quantity demanded refers to the specific amount of a good or service that consumers are willing and able to purchase at a give price and within a specific time period. Demand, on the other hand, is a broader concept that encompasses the entire relationship between price and quantity demanded

Ezea

Shukri

how do you save a country economic situation when it's falling apart

Lilia Reply

what is the difference between economic growth and development

Fiker Reply

Economic growth as an increase in the production and consumption of goods and services within an economy.but Economic development as a broader concept that encompasses not only economic growth but also social & human well being.

Shukri

production function means

Jabir

What do you think is more important to focus on when considering inequality ?

Abdisa Reply

any question about economics?

Awais Reply

sir...I just want to ask one question... Define the term contract curve? if you are free please help me to find this answer 🙏

Asui

it is a curve that we get after connecting the pareto optimal combinations of two consumers after their mutually beneficial trade offs

Awais

thank you so much 👍 sir

Asui

In economics, the contract curve refers to the set of points in an Edgeworth box diagram where both parties involved in a trade cannot be made better off without making one of them worse off. It represents the Pareto efficient allocations of goods between two individuals or entities, where neither p

Cornelius

Suppose a consumer consuming two commodities X and Y has The following utility function u=X0.4 Y0.6. If the price of the X and Y are 2 and 3 respectively and income Constraint is birr 50. A,Calculate quantities of x and y which maximize utility. B,Calculate value of Lagrange multiplier. C,Calculate quantities of X and Y consumed with a given price. D,alculate optimum level of output .

Feyisa Reply

Answer

Feyisa

Jabir

the market for lemon has 10 potential consumers, each having an individual demand curve p=101-10Qi, where p is price in dollar's per cup and Qi is the number of cups demanded per week by the i th consumer.Find the market demand curve using algebra. Draw an individual demand curve and the market dema

Gsbwnw Reply

suppose the production function is given by ( L, K)=L¼K¾.assuming capital is fixed find APL and MPL. consider the following short run production function:Q=6L²-0.4L³ a) find the value of L that maximizes output b)find the value of L that maximizes marginal product

Abdureman

types of unemployment

Yomi Reply

What is the difference between perfect competition and monopolistic competition?

Mohammed

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Source: OpenStax, Concepts of physics. OpenStax CNX. Aug 25, 2015 Download for free at https://legacy.cnx.org/content/col11738/1.5

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