<P> This similarity results in nearly identical chemical behavior and in the formation of similar chemical compounds . The chemistry of hafnium is so similar to that of zirconium that a separation on chemical reactions was not possible; only the physical properties of the compounds differ . The melting points and boiling points of the compounds and the solubility in solvents are the major differences in the chemistry of these twin elements . Titanium is considerably different from the other two owing to the effects of the lanthanide contraction . </P> <P> The table below is a summary of the key physical properties of the group 4 elements . The four question - marked values are extrapolated . </P> <Table> Properties of the Group 4 elements <Tr> <Th> Name </Th> <Th> Titanium </Th> <Th> Zirconium </Th> <Th> Hafnium </Th> <Th> Rutherfordium </Th> </Tr> <Tr> <Td> Melting point </Td> <Td> 1941 K (1668 ° C) </Td> <Td> 2130 K (1857 ° C) </Td> <Td> 2506 K (2233 ° C) </Td> <Td> 2400 K (2100 ° C)? </Td> </Tr> <Tr> <Td> Boiling point </Td> <Td> 3560 K (3287 ° C) </Td> <Td> 4682 K (4409 ° C) </Td> <Td> 4876 K (4603 ° C) </Td> <Td> 5800 K (5500 ° C)? </Td> </Tr> <Tr> <Td> Density </Td> <Td> 4.507 g cm </Td> <Td> 6.511 g cm </Td> <Td> 13.31 g cm </Td> <Td> 23.2 g cm? </Td> </Tr> <Tr> <Td> Appearance </Td> <Td> silver metallic </Td> <Td> silver white </Td> <Td> silver gray </Td> <Td>? </Td> </Tr> <Tr> <Td> Atomic radius </Td> <Td> 140 pm </Td> <Td> 155 pm </Td> <Td> 155 pm </Td> <Td> 150 pm? </Td> </Tr> </Table> <Tr> <Th> Name </Th> <Th> Titanium </Th> <Th> Zirconium </Th> <Th> Hafnium </Th> <Th> Rutherfordium </Th> </Tr>

Melting and boiling point of group 4 elements
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