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it melting point tends to be higher
According to http://en.wikipedia.org/wiki/List_of_elements_by_melting_point, apparently not: The highest melting point is carbon (graphite) at 3675 degrees celsius; the highst melting point for a metal is 3422 degrees celsius for tungsten (wolfram).According to http://en.wikipedia.org/wiki/List_of_elements_by_melting_point, apparently not: The highest melting point is carbon (graphite) at 3675 degrees celsius; the highst melting point for a metal is 3422 degrees celsius for tungsten (wolfram).According to http://en.wikipedia.org/wiki/List_of_elements_by_melting_point, apparently not: The highest melting point is carbon (graphite) at 3675 degrees celsius; the highst melting point for a metal is 3422 degrees celsius for tungsten (wolfram).According to http://en.wikipedia.org/wiki/List_of_elements_by_melting_point, apparently not: The highest melting point is carbon (graphite) at 3675 degrees celsius; the highst melting point for a metal is 3422 degrees celsius for tungsten (wolfram).
Knowing what the options are for the answers would be helpful to know which has the lowest melting point. Without knowing what transition metals are listed in the answers it is hard to know which is correct.
One of the easier and more reliable ways to check if a solid compound is pure after re-crystallization is to check its melting point. Impurities will always lower the melting point of a sample, and the more impure, the lower the melting point will be. By checking the melting point of your sample with a reference value from a book or reliable internet source, it can be determined exactly how impure the sample is. If perhaps your compound is unknown, and thus are unable to obtain a reference value, you could obtain melting point of the sample, and then re-crystallize a few more times, obtaining a new melting point each time, until it is unchanged by re-crystallizing. This will of course decrease your yield, but if there is little fluctuation in your series of melting points, you can be sure you have a relatively pure sample.
different levels of saturation, the more saturated the higher the melting point.
it melting point tends to be higher
When a metal is ionised it forms a compound - depending on what the compound is and what metal we are talking about the melting point of the compound may be more or less than the mp of the metal
a more dense metal
According to http://en.wikipedia.org/wiki/List_of_elements_by_melting_point, apparently not: The highest melting point is carbon (graphite) at 3675 degrees celsius; the highst melting point for a metal is 3422 degrees celsius for tungsten (wolfram).According to http://en.wikipedia.org/wiki/List_of_elements_by_melting_point, apparently not: The highest melting point is carbon (graphite) at 3675 degrees celsius; the highst melting point for a metal is 3422 degrees celsius for tungsten (wolfram).According to http://en.wikipedia.org/wiki/List_of_elements_by_melting_point, apparently not: The highest melting point is carbon (graphite) at 3675 degrees celsius; the highst melting point for a metal is 3422 degrees celsius for tungsten (wolfram).According to http://en.wikipedia.org/wiki/List_of_elements_by_melting_point, apparently not: The highest melting point is carbon (graphite) at 3675 degrees celsius; the highst melting point for a metal is 3422 degrees celsius for tungsten (wolfram).
The one with a higher melting point will generate more light (Tungsten is a metal that's often used.) see related link . Another opinion: It won't necessarily generate more light, but it'll surely last longer before you need a new one.
Melting point: 1337.33 K, 1064.18 °C, 1947.52 °F Boiling point: 3129 K, 2856 °C, 5173 °F There is a related link below for more data on the metal we know as gold (Au).
ice point = cannot freeze anymore melting point = cannot melt any more
The oxides that form on the surface are more resistant than the metal itself. It also has a higher melting point than the metal making it essential to remove before welding.Yes. For example, the density of aluminum is 2.7 grams per cubic centimeter, an aluminum atom has 13 protons, and the melting point is 660 degrees centigrade.
Knowing what the options are for the answers would be helpful to know which has the lowest melting point. Without knowing what transition metals are listed in the answers it is hard to know which is correct.
The melting point of strontium is 777 °C, or 1431 °F. Use the link below for more information.
D. So it has more mass so they can sell more of it.nothing to do with freezing or melting points.
Molecular Solids have a lower melting point