States of Matter
The substance that constitutes everything in the universe is known as matter. Matter comprises atoms which in turn are composed of electrons, protons, and neutrons. Different atoms combine together to give rise to molecules that act as a foundation for all kinds of substances. There are five states of matter based on their energies of attraction, namely solid, liquid, gases, plasma, and BEC (Bose-Einstein condensates).
Chemical Reactions and Equations
When a chemical species is transformed into another chemical species it is said to have undergone a chemical reaction. It consists of breaking existing bonds and forming new bonds by changing the position of electrons. These reactions are best explained using a chemical equation.
i need help to arrange these elements
in a table according to their chemical and physical properties. The goal is to display as many patterns among the properties as possible.
![Periodic Table Description
A
B
Black crystalline solid
Melting point
Silver-white, soft
mctallic solid
Colorless gas
Black crystallinc solid
Melting point
3652°C
Melting point
%3D
%3D
Melting point =
186°C
233°C
114°C
Boiling point
4200°C
Ionization energy =
Boiling point
Boiling point = 184°C
Ionization cnergy =
Boiling point =
1336°C
Ionization energy =
188°C
Ionization cnergy =
1031 kJ/mol
Hydride = CH
Oxide = C20
Chloride = CCI
1088 kJ/mol
1682 kJ/mol
519 kJ/mol
Hydride = AH4
Oxide = AO2, AO
Chloride = ACI4
Hydride = BH
Oxide = B20
Chloride = BCI
%3D
Hydride = DH
Oxide = D20
Chloride = DCI
F
G
I
E
Colorless gas
Melting point =
272°C
Gray crystalline solid
Melting point =
1420°C
Colorless gas
Silver-white, soft
metallic solid
Melting point = 28°C
Boiling point = 670°C
Ionization energy =
Melting point =
112°C
Boiling point = -
%3D
Boilin; point =
%3D
Boiling point
268°C
107°C
2355°C
Ionization energy =
Ionization energy =
1170 kJ/mol
Ionization energy =
375 kJ/mol
787 kJ/mol
Hydride = FH
Oxide = F20
Chloride = FCI
2372 kJ/mol
Hydride = none
Oxide = none
Hydride = none
Oxide = GO2
Hydride = IH,
Oxide = IO2
Chloride = ICl,
%3D
(unstable)
Chloride = GCI4
Chloride = none
(unstable)
J
K
M
Silver-white, soft
metallic solid
Silver-gray, soft
metallic solid
Silver, soft metallic
solid
Colorless gas
Melting point = -
Melting point = 842°C
Boiling point
1240°C
Ionization energy =
Melting point
Boiling point = -246°C | 1280°C
Boiling point
2970°C
Ionization energy =
Melting point = 62°C
Boiling point = 760°C
Ionization energy =
418 kJ/mol
Hydride = MH
Oxide = M2O
Chloride MCI
249°C
%3D
%3D
Ionization energy
2080 kJ/mol
Hydride
Oxide = none
Chloride = none
590 kJ/mol
= none
898 kJ/mol
Hydride = JH2
Oxide = JO
Chloride = JOC12
Hydride = LH2
Oxide = LO
Chloride = LCI2](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fbdfa0f12-2d74-4ee9-9200-6de43abb1da3%2F3fc8df08-6105-4c89-80f7-b2924f1503b1%2Fk2ul79n_processed.jpeg&w=3840&q=75)
![N
P
Q
R
Colorless gas
Melting point =
157°C
Gray-white metallic
solid
Red-orange solid
Melting point = -7.2°C
Melting point = 958°C | Boiling point = 59°C
Ionization cnergy =
Silver, pale yellow
metallic solid
Melting point = 774°C
Boiling point
1140°C
Ionization energy
%3D
Boiling point = -153°C | Boiling point =
Ionization energy =
1346 kJ/mol
2700°C
1148 kJ/mol
Ionization energy =
Hydride = RH
Oxide = R20
%3D
%3D
Hydride = none
Oxide = PO2
551 kJ/mol
780 kJ/mol
Hydride = NH2
Oxide = NO
Chloride = NCI2
Hydride = QH2
Oxide = QO2, QO
Chloride = QCI2, QC14
%3D
Chloride = RCI
(unstable)
Chloride = PCl4
(unstable)
S
T
U
V
Colorless gas
Melting point = -
189°C
Silver-white, soft
metallic solid
Silver, pale yellow
metallic solid
Silver-white metallic
solid
Melting point = 651°C | Melting point = 38°C
Melting point = 725°C
%3D
%3D
Boiling point = -186°C | Boiling point
Ionization energy =
1519 kJ/mol
Boiling point = 700°C | Boiling point
Ionization energy =
%3D
1140°C
1107°C
Ionization energy =
Ionization
504 kJ/mol
410 kJ/mol
energy
Hydride = UH
Oxide = U2O
Chloride = UCI
736 kJ/mol
Hydride = none
Oxide = none
Hydride = TH2
Oxide = TO
Hydride = VH2
Oxide = VO
Chloride = VC12
%3D
Chloride = none
Chloride = TC12
%3D
Y
Z
W
Pale yellow gas
Melting point = -
103°C
Gray-white metallic
solid
Gray metallic solid
Melting point = 327°C
Silver, soft metallic
solid
%3D
Melting point = 232°C | Boiling point =
Boiling point =
2260°C
Ionization energy =
Melting point
97.5°C
%3D
Boiling point = -34°C
Ionization energy
1620°C
Ionization cnergy =
715 kJ/mol
Hydride = YH,
Oxide = Y20, YO2
Chloride = YC12, YCI4
%3D
Boiling point = 880°C
Ionization energy =
1255 kJ/mol
Hydride = WH
Oxide = W20
Chloride = WCI
709 kJ/mol
%3D
498 kJ/mol
Hydride = XH4
Охide%3D XOz, хо
Chloride = XC12, XCI4
Hydride = ZH
Oxide = Z20
Chloride = ZCI](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fbdfa0f12-2d74-4ee9-9200-6de43abb1da3%2F3fc8df08-6105-4c89-80f7-b2924f1503b1%2Fd9kymmmq_processed.jpeg&w=3840&q=75)
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