Compare Carbon vs Beryllium: Periodic Table Element Comparison Table and Properties
Compare the elements Carbon and Beryllium on the basis of their properties, attributes and periodic table facts. Compare elements - Carbon and Beryllium comparison table side by side across over 90 properties. All the elements of similar categories show a lot of similarities and differences in their chemical, atomic, physical properties and uses. These similarities and dissimilarities should be known while we study periodic table elements. You can study the detailed comparison between Carbon vs Beryllium with most reliable information about their properties, attributes, facts, uses etc. You can compare C vs Be on more than 90 properties like electronegativity, oxidation state, atomic shells, orbital structure, Electronaffinity, physical states, electrical conductivity and many more. This in-depth comparison helps students, educators, researchers, and science enthusiasts understand the differences and similarities between Carbon and Beryllium.
Carbon and Beryllium Comparison
Here's a detailed comparison between Carbon (C) and Beryllium (Be), focusing on their position in the periodic table, physical and chemical properties, stability, and uses.
Facts - Basic Element Details
| Name | Carbon | Beryllium |
|---|---|---|
| Atomic Number | 6 | 4 |
| Atomic Symbol | C | Be |
| Atomic Weight | 12.0107 | 9.012182 |
| Phase at STP | Solid | Solid |
| Color | Black | SlateGray |
| Metallic Classification | Other Nonmetal | Alkaline Earth Metal |
| Group in Periodic Table | group 14 | group 2 |
| Group Name | carbon family | beryllium family |
| Period in Periodic Table | period 2 | period 2 |
| Block in Periodic Table | p -block | s -block |
| Electronic Configuration | [He] 2s2 2p2 | [He] 2s2 |
| Electronic Shell Structure (Electrons per shell) | 2, 4 | 2, 2 |
| Melting Point | 3823 K | 1560 K |
| Boiling Point | 4300 K | 2743 K |
| CAS Number | CAS7440-44-0 | CAS7440-41-7 |
| Neighborhood Elements | Neighborhood Elements of Carbon | Neighborhood Elements of Beryllium |
History
| Parameter | Carbon | Beryllium |
|---|---|---|
| History | The element Carbon was discovered by Egyptians and Sumerians in year 3750 BCE. Carbon derived its name the Latin word carbo, meaning 'coal'. | The element Beryllium was discovered by N. Vauquelin in year 1798 in France. Beryllium derived its name from beryl, a mineral. |
| Discovery | Egyptians and Sumerians (3750 BCE) | N. Vauquelin (1798) |
| Isolated | () | F. Wöhler and A. Bussy (1828) |
Presence: Abundance in Nature and Around Us
Parts per billion (ppb) by weight / by atoms (1ppb =10^-7 %)
| Property | Carbon | Beryllium |
|---|---|---|
| Abundance in Universe | 5000000 / 500000 | 1 / 0.1 |
| Abundance in Sun | 3000000 / 300000 | 0.1 / 0.01 |
| Abundance in Meteorites | 15000000 / 18000000 | 30 / 70 |
| Abundance in Earth's Crust | 1800000 / 3100000 | 1900 / 4300 |
| Abundance in Oceans | 28000 / 14400 | 0.0006 / 0.00041 |
| Abundance in Humans | 230000000 / 120000000 | 0.4 / 0.3 |
Crystal Structure and Atomic Structure
| Property | Carbon | Beryllium |
|---|---|---|
| Atomic Volume | 5.29 cm3/mol | 4.8767 cm3/mol |
| Atomic Radius | 67 pm | 112 pm |
| Covalent Radius | 77 pm | 90 pm |
| Van der Waals Radius | 170 pm | 153 pm |
Atomic Spectrum - Spectral Lines | ||
| Emission Spectrum |  |  |
| Absorption Spectrum |  |  |
| Lattice Constant | 246.4, 246.4, 671.1 pm | 228.58, 228.58, 358.43 pm |
| Lattice Angle | π/2, π/2, 2 π/3 | π/2, π/2, 2 π/3 |
| Space Group Name | P63/mmc | P63/mmc |
| Space Group Number | 194 | 194 |
| Crystal Structure | Simple Hexagonal  | Simple Hexagonal |
Atomic and Orbital Properties
| Property | Carbon | Beryllium |
|---|---|---|
| Atomic Number | 6 | 4 |
| Number of Electrons (with no charge) | 6 | 4 |
| Number of Protons | 6 | 4 |
| Mass Number | 12.0107 | 9.012182 |
| Number of Neutrons | 6 | 5 |
| Shell structure (Electrons per energy level) | 2, 4 | 2, 2 |
| Electron Configuration | [He] 2s2 2p2 | [He] 2s2 |
| Valence Electrons | 2s2 2p2 | 2s2 |
| Oxidation State | -4, -3, -2, -1, 0, 1, 2, 3, 4 | 2 |
| Atomic Term Symbol (Quantum Numbers) | 3P0 | 1S0 |
| Shell structure |  |  |
Isotopes and Nuclear Properties
Carbon has 2 stable naturally occuring isotopes while Beryllium has 1 stable naturally occuring isotopes.
| Parameter | Carbon | Beryllium |
|---|---|---|
| Known Isotopes | 8C, 9C, 10C, 11C, 12C, 13C, 14C, 15C, 16C, 17C, 18C, 19C, 20C, 21C, 22C | 5Be, 6Be, 7Be, 8Be, 9Be, 10Be, 11Be, 12Be, 13Be, 14Be, 15Be, 16Be |
| Stable Isotopes | Naturally occurring stable isotopes: 12C, 13C | Naturally occurring stable isotopes: 9Be |
| Neutron Cross Section | 0.0035 | 0.0092 |
| Neutron Mass Absorption | 0.000015 | 0.00003 |
Chemical Properties: Ionization Energies and electron affinity
| Property | Carbon | Beryllium |
|---|---|---|
| Valence or Valency | 4 | 2 |
| Electronegativity | 2.55 Pauling Scale | 1.57 Pauling Scale |
| Oxidation State | -4, -3, -2, -1, 0, 1, 2, 3, 4 | 2 |
| Electron Affinity | 153.9 kJ/mol | 0 kJ/mol |
| Ionization Energies | 1st: 1086.5 kJ/mol 2nd: 2352.6 kJ/mol 3rd: 4620.5 kJ/mol 4th: 6222.7 kJ/mol 5th: 37831 kJ/mol 6th: 47277 kJ/mol | 1st: 899.5 kJ/mol 2nd: 1757.1 kJ/mol 3rd: 14848.7 kJ/mol 4th: 21006.6 kJ/mol |
Physical Properties
Beryllium (1.848 g/cm³) is less dense than Carbon (2.26 g/cm³). This means that a given volume of Carbon will be heavier than the same volume of Beryllium. Carbon is about 22.3 denser than Beryllium
| Property | Carbon | Beryllium |
|---|---|---|
| Phase at STP | Solid | Solid |
| Color | Black | SlateGray |
| Density | 2.26 g/cm3 | 1.848 g/cm3 |
| Density (when liquid (at melting point)) | - | 1.69 g/cm3 |
| Molar Volume | 5.29 cm3/mol | 4.8767 cm3/mol |
Mechanical and Hardness Properties
| Property | Carbon | Beryllium |
|---|---|---|
Elastic Properties | ||
| Young Modulus | - | 287 |
| Shear Modulus | - | 132 GPa |
| Bulk Modulus | 33 GPa | 130 GPa |
| Poisson Ratio | - | 0.032 |
Hardness - Tests to Measure of Hardness of Element | ||
| Mohs Hardness | 0.5 MPa | 5.5 MPa |
| Vickers Hardness | - | 1670 MPa |
| Brinell Hardness | - | 600 MPa |
Thermal and Electrical Conductivity
| Property | Carbon | Beryllium |
|---|---|---|
Heat and Conduction Properties | ||
| Thermal Conductivity | 140 W/(m K) | 190 W/(m K) |
| Thermal Expansion | 0.0000071 /K | 0.0000113 /K |
Electrical Properties | ||
| Electrical Conductivity | 100000 S/m | 25000000 S/m |
| Resistivity | 0.00001 m Ω | 4e-8 m Ω |
| Superconducting Point | - | 0.026 |
Magnetic and Optical Properties
| Property | Carbon | Beryllium |
|---|---|---|
Magnetic Properties | ||
| Magnetic Type | Diamagnetic | Diamagnetic |
| Curie Point | - | - |
| Mass Magnetic Susceptibility | -6.2e-9 m3/kg | -1.26e-8 m3/kg |
| Molar Magnetic Susceptibility | -7.45e-11 m3/mol | -1.136e-10 m3/mol |
| Volume Magnetic Susceptibility | -0.000014 | -0.00002328 |
Optical Properties | ||
| Refractive Index | 2.417 | - |
Acoustic Properties | ||
| Speed of Sound | 18350 m/s | 13000 m/s |
Thermal Properties - Enthalpies and thermodynamics
| Property | Carbon | Beryllium |
|---|---|---|
| Melting Point | 3823 K | 1560 K |
| Boiling Point | 4300 K | 2743 K |
| Critical Temperature | - | - |
| Superconducting Point | - | 0.026 |
Enthalpies | ||
| Heat of Fusion | 105 kJ/mol | 7.95 kJ/mol |
| Heat of Vaporization | 715 kJ/mol | 297 kJ/mol |
| Heat of Combustion | -393.5 J/(kg K) | - |
Regulatory and Health - Health and Safety Parameters and Guidelines
| Parameter | Carbon | Beryllium |
|---|---|---|
| CAS Number | CAS7440-44-0 | CAS7440-41-7 |
| RTECS Number | {RTECSHL4158550, RTECSFF5250100, RTECSMD9659600, N/A} | RTECSDS1750000 |
| DOT Hazard Class | 4.2 | 6.1 |
| DOT Numbers | 1361 | 1567 |
| EU Number | - | - |
| NFPA Fire Rating | 1 | 1 |
| NFPA Health Rating | 0 | 3 |
| NFPA Reactivity Rating | 0 | 0 |
| NFPA Hazards | - | - |
| AutoIgnition Point | - | - |
| Flashpoint | - | - |
Compare Carbon and Beryllium With Other Elements
Compare Carbon and Beryllium with other elements of the periodic table. Explore howCarbon and Beryllium stack up against other elements of the periodic table. Use our interactive comparison tool to analyze 90+ properties across different metals, non-metals, metalloids, and noble gases. Understanding these differences is crucial for applications in engineering, chemistry, electronics, biology, and material science.
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