The boiling point of nickel sulfate should be around 840 °C, where thermal decomposition has already begun.
Zinc sulfate is an ionic compound (Zn2+ and SO42-) while naphtalene is not (it is a hydrocarbonic compound)
Stannous sulfate is a compound containing tin and sulfur, commonly used in electroplating and as a reducing agent. Nickel sulfate, on the other hand, is a compound containing nickel and sulfur, typically used in nickel plating, catalysts, and the production of batteries. They differ in their chemical composition and the properties they exhibit in various applications.
Nickel cannot replace copper in copper II sulfate because nickel is higher in the electromotive series than copper.
The systematic name for the compound Ni2SO4₃ is nickel(III) sulfate. In this compound, nickel has an oxidation state of +3, and the sulfate ion (SO₄) has a charge of -2. The formula indicates that there are two nickel ions for every three sulfate ions, maintaining charge balance.
Ni2S3
the boiling point for nickel is 2732 C or 3186 K.
Magnesium sulfate does not have a single boiling point as it decomposes before reaching a boiling point. Magnesium sulfate heptahydrate decomposes around 150°C, releasing water molecules and turning into anhydrous magnesium sulfate.
The boiling point of copper(II) sulfate is approximately 1500°C. The melting point is around 150°C.
Nickel's boiling point is 2732.0 °C (3005.15 K).
1100 degrees celsius
Lead(II) sulfate melts at over a 10000C. I can't find a boiling point and I am not surprised- I would expect decomposition at such temperatures.
Copper II sulfate solution has a boiling point of 150 degrees Celsius. CuSO4 crystals melt at 200 degrees Celsius however I'm unable to find data on its boiling point.
The boiling point of water is 100 degrees Celsius, while the boiling point of copper sulfate is much higher at around 1500 degrees Celsius. Mixing copper sulfate with water would not change the boiling point of water significantly.
103.6ºC
Melting Point: 1453.0 °C (1726.15 K, 2647.4 °F)Boiling Point: 2732.0 °C (3005.15 K, 4949.6 °F)
103.6ºC
The boiling point of a solution increases with the concentration of solute particles. To calculate the boiling point elevation, you can use the formula: ΔTb = i * Kf * m, where i is the van't Hoff factor (2 for sodium sulfate), Kf is the ebullioscopic constant, and m is the molality of the solution. If you have these values, you can calculate the boiling point elevation using this formula.