Elements Table

Name	AN	AS	Z	N	AW	Density	Melts	Boil	Block	Phase	Type
Hydrogen	1	H	1	0	1.008	0.00008988	14.01	20.28	s-block	gas
Helium	2	He	2	2	4.0026	0.0001785	see note	4.22	s-block	gas
Lithium	3	Li	3	3	6.94	0.534	453.69	1560	s-block	solid	alkali
Beryllium	4	Be	4	4	9.0122	1.85	1560	2742	s-block	solid	alkaline
Boron	5	B	5	6	10.81	2.34	2349	4200	p-block	solid	metalloid
Carbon	6	C	6	6	12.011	2.267	>4000	4300	p-block	solid	mineral
Nitrogen	7	N	7	7	14.007	0.0012506	63.15	77.36	p-block	gas
Oxygen	8	O	8	8	15.999	0.001429	54.36	90.2	p-block	gas
Fluorine	9	F	9	10	18.998	0.001696	53.53	85.03	p-block	gas	halogen
Neon	10	Ne	10	10	20.18	0.0009002	24.56	27.07	p-block	gas	inert
Name	AN	AS	Z	N	AW	Density	Melts	Boil	Block	Phase	Type
Sodium	11	Na	11	12	22.99	0.968	370.87	1156	s-block	solid	alkali
Magnesium	12	Mg	12	12	24.305	1.738	923	1363	s-block	solid	alkaline
Aluminium	13	Al	13	14	26.982	2.7	933.47	2792	p-block	solid	metal
Silicon	14	Si	14	14	28.085	2.329	1687	3538	p-block	solid	metalloid
Phosphorus	15	P	15	16	30.974	1.823	317.3	550	p-block	solid	mineral
Sulfur	16	S	16	16	32.06	2.07	388.36	717.87	p-block	solid	mineral
Chlorine	17	Cl	17	18	35.45	0.0032	171.6	239.11	p-block	gas	halogen
Argon	18	Ar	18	22	39.95	0.001784	83.8	87.3	p-block	gas	inert
Potassium	19	K	19	20	39.098	0.89	336.53	1032	s-block	solid	alkali
Calcium	20	Ca	20	20	40.078	1.55	1115	1757	s-block	solid	alkaline
Name	AN	AS	Z	N	AW	Density	Melts	Boil	Block	Phase	Type
Scandium	21	Sc	21	24	44.956	2.985	1814	3109	d-block	solid	Rare Earth
Titanium	22	Ti	22	26	47.867	4.506	1941	3560	d-block	solid	metal
Vanadium	23	V	23	28	50.942	6.11	2183	3680	d-block	solid	metal
Chromium	24	Cr	24	28	51.996	7.15	2180	2944	d-block	solid	metal
Manganese	25	Mn	25	30	54.938	7.21	1519	2334	d-block	solid	metal
Iron	26	Fe	26	30	55.845	7.874	1811	3134	d-block	solid	metal
Cobalt	27	Co	27	32	58.933	8.9	1768	3200	d-block	solid	metal
Nickel	28	Ni	28	31	58.693	8.908	1728	3186	d-block	solid	metal
Copper	29	Cu	29	35	63.546	8.96	1357.77	2835	d-block	solid	metal
Zinc	30	Zn	30	35	65.38	7.14	692.88	1180	d-block	solid	metal
Name	AN	AS	Z	N	AW	Density	Melts	Boil	Block	Phase	Type
Gallium	31	Ga	31	39	69.723	5.91	302.9146	2673	p-block	solid	metal
Germanium	32	Ge	32	41	72.63	5.323	1211.4	3106	p-block	solid	metalloid
Arsenic	33	As	33	42	74.922	5.727	1090	887	p-block	solid	metalloid
Selenium	34	Se	34	45	78.971	4.81	453	958	p-block	solid	metal
Bromine	35	Br	35	45	79.904	3.1028	265.8	332	p-block	gas	halogen
Krypton	36	Kr	36	48	83.798	0.003749	115.79	119.93	p-block	gas	inert
Rubidium	37	Rb	37	48	85.468	1.532	312.46	961	s-block	solid	alkali
Strontium	38	Sr	38	50	87.62	2.64	1050	1655	s-block	solid	alkaline
Yttrium	39	Y	39	50	88.906	4.472	1799	3609	d-block	solid	Rare Earth
Zirconium	40	Zr	40	51	91.224	6.52	2128	4682	d-block	solid	metal
Name	AN	AS	Z	N	AW	Density	Melts	Boil	Block	Phase	Type
Niobium	41	Nb	41	52	92.906	8.57	2750	5017	d-block	solid	metal
Molybdenum	42	Mo	42	54	95.95	10.28	2896	4912	d-block	solid	metal
Technetium*	43	Tc	43	0	[97]	11	2430	4538	d-block	solid	metal
Ruthenium	44	Ru	44	57	101.07	12.45	2607	4423	d-block	solid	metal
Rhodium	45	Rh	45	58	102.91	12.41	2237	3968	d-block	solid	metal
Palladium	46	Pd	46	60	106.42	12.023	1828.05	3236	d-block	solid	metal
Silver	47	Ag	47	61	107.87	10.49	1234.93	2435	d-block	solid	metal
Cadmium	48	Cd	48	64	112.41	8.65	594.22	1040	d-block	solid	metal
Indium	49	In	49	66	114.82	7.31	429.75	2345	p-block	solid	metal
Tin	50	Sn	50	69	118.71	7.265	505.08	2875	p-block	solid	metal
Name	AN	AS	Z	N	AW	Density	Melts	Boil	Block	Phase	Type
Antimony	51	Sb	51	71	121.76	6.697	903.78	1860	p-block	solid	metalloid
Tellurium	52	Te	52	76	127.6	6.24	722.66	1261	p-block	solid	metalloid
Iodine	53	I	53	74	126.9	4.933	386.85	457.4	p-block	solid	halogen
Xenon	54	Xe	54	77	131.29	0.005894	161.4	165.03	p-block	solid	inert
Cesium	55	Cs	55	78	132.91	1.93	301.59	944	s-block	solid	alkali
Barium	56	Ba	56	81	137.33	3.51	1000	2170	s-block	solid	alkaline
Lanthanum	57	La	57	82	138.91	6.162	1193	3737	f-block	solid	Rare Earth
Cerium	58	Ce	58	82	140.12	6.77	1068	3716	f-block	solid	Rare Earth
Praseodymium	59	Pr	59	82	140.91	6.77	1208	3793	f-block	solid	Rare Earth
Neodymium	60	Nd	60	84	144.24	7.01	1297	3347	f-block	solid	Rare Earth
Name	AN	AS	Z	N	AW	Density	Melts	Boil	Block	Phase	Type
Promethium*	61	Pm	61	84	[145]	7.26	1315	3273	f-block	solid	Rare Earth
Samarium	62	Sm	62	88	150.36	7.52	1345	2067	f-block	solid	Rare Earth
Europium	63	Eu	63	89	151.96	5.244	1099	1802	f-block	solid	Rare Earth
Gadolinium	64	Gd	64	93	157.25	7.9	1585	3546	f-block	solid	Rare Earth
Terbium	65	Tb	65	94	158.93	8.23	1629	3503	f-block	solid	Rare Earth
Dysprosium	66	Dy	66	97	162.5	8.54	1680	2840	f-block	solid	Rare Earth
Holmium	67	Ho	67	98	164.93	8.79	1734	2993	f-block	solid	Rare Earth
Erbium	68	Er	68	99	167.26	9.066	1802	3141	f-block	solid	Rare Earth
Thulium	69	Tm	69	100	168.93	9.32	1818	2223	f-block	solid	Rare Earth
Ytterbium	70	Yb	70	103	173.05	6.9	1097	1469	f-block	solid	Rare Earth
Name	AN	AS	Z	N	AW	Density	Melts	Boil	Block	Phase	Type
Lutetium	71	Lu	71	104	174.97	9.841	1925	3675	d-block	solid	Rare Earth
Hafnium	72	Hf	72	106	178.49	13.31	2506	4876	d-block	solid	metal
Tantalum	73	Ta	73	108	180.95	16.69	3290	5731	d-block	solid	metal
Tungsten	74	W	74	110	183.84	19.25	3695	6203	d-block	solid	metal
Radium	75	Ra	75	111	186.21	21.02	3459	5869	d-block	solid	metal
Osmium	76	Os	76	114	190.23	22.59	3306	5285	d-block	solid	metal
Iridium	77	Ir	77	115	192.22	22.56	2719	4701	d-block	solid	metal
Platinum	78	Pt	78	117	195.08	21.45	2041.4	4098	d-block	solid	metal
Gold	79	Au	79	118	196.97	19.3	1337.33	3129	d-block	solid	metal
Mercury	80	Hg	80	121	200.59	13.534	234.43	629.88	d-block	liquid	metal
Name	AN	AS	Z	N	AW	Density	Melts	Boil	Block	Phase	Type
Thallium	81	Tl	81	123	204.38	11.85	577	1746	p-block	solid	metal
Lead	82	Pb	82	125	207.2	11.34	600.61	2022	p-block	solid	metal
Bismuth	83	Bi	83	126	208.98	9.78	544.7	1837	p-block	solid	metal
Polonium*	84	Po	84	125	[209]	9.196	527	1235	p-block	solid	metal
Astatine*	85	At	85	136	[210]	≟? -8.93 ?≟	575	610	p-block	solid	halogen
Radon*	86	Rn	86	136	[222]	0.00973	202	211.3	p-block	solid	inert
Francium*	87	Fr	87	138	[223]	2.48	281	890	s-block	solid	alkali
Radium*	88	Ra	88	138	[226]	5.5	973	2010	s-block	solid	alkaline
Actinium*	89	Ac	89	142	[227]	10	1323	3471	f-block	solid	Actinide
Thorium*	90	Th	90	140	232.04	11.7	2115	5061	f-block	solid	Actinide
Name	AN	AS	Z	N	AW	Density	Melts	Boil	Block	Phase	Type
Protactinium*	91	Pa	91	146	231.04	15.37	1841	4300	f-block	solid	Actinide
Uranium*	92	U	92	144	238.03	19.1	1405.3	4404	f-block	solid	Actinide
Neptunium*	93	Np	93	148	[237]	20.45	917	4273	f-block	solid	Actinide
Plutonium*	94	Pu	94	148	[244]	19.85	912.5	3501	f-block	solid	Actinide
Americium*	95	Am	95	151	[243]	12	1449	2880	f-block	solid	Actinide
Curium*	96	Cm	96	150	[247]	13.51	1613	3383	f-block	solid	Actinide
Berkelium*	97	Bk	97	153	[247]	14.78	1259	2900	f-block	solid	Actinide
Californium*	98	Cf	98	153	[251]	15.1	1173	-1743	f-block	solid	Actinide
Einsteinium*	99	Es	99	157	[252]	8.84	1133	-1269	f-block	solid	Actinide
Fermium*	100	Fm	100	157	[257]	-9.7	-1125		f-block	solid	Actinide
Name	AN	AS	Z	N	AW	Density	Melts	Boil	Block	Phase	Type
Mendelevium*	101	Md	101	148	[258]	-10.3	-1100		f-block	solid	Actinide
Nobelium*	102	No	102	157	[259]	-9.9	-1100		f-block	solid	Actinide
Lawrencium*	103	Lr	103	157	[266]	-14.4	-1900		d-block	solid	Actinide
ALL below ↓ are also radioactive.
Rutherfordium*	104	Rf	104	157	[267]	-17	-2400		d-block	solid
Dubnium*	105	Db	105	155	[268]	-21.6			d-block
Seaborgium*	106	Sg	106	147	[267]	(23–24)			d-block
Bohrium*	107	Bh	107	147	[270]	(26–27)			d-block
Hassium*	108	Hs	108	159	[271]	(27–29)			d-block
Meitnerium*	109	Mt	109	161	[278]	(27–28)			d-block
Darmstadtium*	110	Ds	110	165	[281]	(26–27)			d-block
Name	AN	AS	Z	N	AW	Density	Melts	Boil	Block	Phase	Type
Roentgenium*	111	Rg	111		[282]	(22–24)			d-block
Copernicium*	112	Cn	112		[285]	-14	(283±11)	(340±10)	d-block
Nihonium*	113	Nh	113		[286]	-16			p-block
Flerovium*	114	Fl	114		[289]	(11.4±0.3)	(284±50)		p-block
Moscovium*	115	Mc	115		[290]	-13.5			p-block
Livermorium*	116	Lv	115		[293]	-12.9			p-block
Tennessine*	117	Ts	117		[294]	(7.1–7.3)			p-block
Oganassen*	118	Og	118		[294]	-7	(325±15)	(450±10)	p-block


Helium does not solidify until it is under 4 atm of pressure, then it solidifies/melts at ≈0.95K
Gallium is liquid at 303K (29.85°C; 85.73°F). You can hold in your hand and will melt, in time.

Phase is the state at ambient temperature of 294K and 1 atm.

Alkali and Alkaline tend to be highly reactive. Pure sodium, if large enough, can explode like a bomb when put into water. Even distilled.
Metalloids are actually mineral elements that also behave like a metal element.
Halogens are gases that are highly reactive. In fact, they will react with virtually anything, even in a completely anoxic atmosphere.
Inert gases are just that. Inert. They do not react with anything.

I am not sure what the negative density for Astatine is. I just downloaded the table in csv, then loaded into sprdsht.

ALL actinides are radioactive.

Naturally occurring radioactive elements.

Artificially generated radioactive elements.

Want proof of “vacuum power”, or some “Otherpower”? Helium. Even at 0K in close as possible vacuum, helium is STILL liquid. 0K is supposed to indicate when entropy = 0.0000. We have taken Helium to something like 18 decimal places of 0K (0.000 000 000 000 000 000 …). AND it refuses to become solid until we apply ≈4.000 atm pressure. Helium, AFAIAC, proves there is power that can be tapped in a complete vacuum. Casimir Effect. And if there is Power to be tapped THERE, then…, if only we can tap it. What about the “cosmic power”? The Power of the Cosmos.

NOW! HERE is where that “↟↟” problem lies. Would tapping such power actually prevent the ReIteration of the universe in the Open Cosmos/Universe Model? Ooops…

IOW, we Humans could actually find a way to end EVERYTHING through science. JUST for our “energy” needs. Hmm…

Here is a CSV file (nt) of above for those whom may wish it.

brain fart

You want a “purpose” for Life? How about this: As Dan Brown in Origin said, “Life is entropy.” Life creates “order”, not chaos. Perfect Proof: Which is in a more “orderly” state? 1. Your body, or 2. Sol, our star?

Here is another way of looking: Which is in a more “energized” state?

You Religitards hate to admit this: Energy and Entropy are directly proportional. When something, anything, is in a higher energized state, its entropy is equal. Where Religitards confuse things is with the “maximal entropy state” term used by scientists. They confuse this with “chaos”. IOW, they attribute entropy with chaos.

“So… Utterly Wrong.” Entropy actually is indicative of order. The less energetic something is, the more orderly it is. The more energetic, the more chaotic. I KNOW I have said this before…

Just, … “Think”.

I mean, really, think. If something is more energized, does that not indicate a more “chaotic” mess? The less energized, the more orderly that mess. Think.

Here is where the confusion lies. One will mostly think of “death” when entropy is zero. Exactly correct. Yet most persons will think “death” means chaos and THE Void. When Entropy is at a “maximal state”, that actually means Entropy IS = zero (0.000). Basically, if Energy = 0, then Entropy ALSO = 0.

AND, I cannot comprehend why this is so hard for even idiots to understand.

My Ultimate Question: “How AM I to believe in anything I can demonstrably falsify?” Explain. Please.

I can falsify ANY claim ANY Religitard can claim. How? Because they are a “CLAIM”. Remember my Brutal Question? “What is any claim/assertion/statement NOT backed by OHEEF other than a LIE?” Remember?

My Stories

One at least.

Never before had such an event occured in Holdur’s life. He awoke late, with no understanding why. The air was chilled, as was normal for this time of year. But, it was more chill than usual. He always awoke the same time of day. It would not be for another three months before the ChillWinds that fell from THE Wall would shift back into THE Wall. However, these ChillWinds were “colder” than usual.

Holdur knew not what to do. Stay within the warmth of blankets, or, face the Chill Cold.

Good enough? …

— The Unknown Atheist

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