because it is a non polar molecule and only van der Waals forces act between the molecules
Silicon tetrachloride has a low boiling point because it is a simple molecular compound with weak van der Waals forces between its molecules. These forces are easily overcome, leading to a lower boiling point compared to compounds with stronger intermolecular forces.
Chlorine has a low melting point of -100.98°C and a low boiling point of -34.6°C.
The melting point of lead is 327oC, as taken from my periodic table.
Phosphorus has a relatively low melting point of 44.1°C (111.4°F). This allows it to melt at relatively low temperatures compared to many other elements.
Melting point : -219.62 C Boiling point : -188.14 C
Silicon tetrachloride has a low boiling point because it is a simple molecular compound with weak van der Waals forces between its molecules. These forces are easily overcome, leading to a lower boiling point compared to compounds with stronger intermolecular forces.
Silicon has a high melting point due to its strong covalent bonds forming a network structure. In contrast, argon exists as individual atoms held together by weak London dispersion forces, resulting in a low melting point.
At STP, neon is a gas, so its melting point is low whereas silicon is a solid, so its melting point is high
High because you make cakes with it so it wont melt
Naphthalene has a relatively low melting point of around 80 degrees Celsius.
That depends on the solid: ice has a very low melting point, lard and butter have low melting points, chocolate has a relatively low melting point, wax has an intermediate melting point, lead has a high melting point, iron has a very high melting point, tungsten has an extremely high melting point.
It has a melting point of 113 degrees celieus
low resistivity and low melting point.
Chlorine has a low melting point of -100.98°C and a low boiling point of -34.6°C.
The melting point of technetium is 2 157 0C- it is not low.
it has a low melting point
Polonium has a low melting point: 254 0C.