Zirconium fluoride (ZrF4) is nearly insoluble, but Zirconium sulfate (Zr(SO4)2.4H2O) is fairly soluble.
Zirconium is not soluble in water in normal conditions; a very low solubility is possible at very high temperatures and pressures.
Increasing the temperature the solubilty of salts in water is higher.
Examples: water solubility, pH of the solution, density.
See this link: http://en.wikipedia.org/wiki/Solubility_table.
No, not all nitrate-containing compounds have low solubility in water. Some nitrate salts, such as potassium nitrate and sodium nitrate, are highly soluble in water. However, some metal nitrates, like lead(II) nitrate and silver nitrate, have low solubility in water.
Not all salts of the earth alkaline metals are soluble in water. Alkaline metal salts like lithium and sodium salts are generally soluble in water, while salts of heavier alkaline earth metals like calcium and barium may have limited solubility in water.
No, not all sulfur-based salts are soluble in water. Solubility of sulfur-based salts in water depends on the specific salt and its chemical properties. Factors such as the size and charge of the ions in the salt, as well as other chemical interactions, can influence its solubility in water.
The dielectric constant of water affects the solubility of ionic salts by reducing the electrostatic forces between ions. A higher dielectric constant allows water to better surround and dissolve the ions, increasing solubility. Conversely, a lower dielectric constant reduces the solubility of ionic salts in water.
As temperature increases, the solubility of most salts generally increases in fresh water, while the solubility of gases typically decreases. In seawater, the effect of temperature on solubility can vary due to the presence of salts and other solutes, but generally, the solubility of gases decreases with higher temperatures. Therefore, while both fresh and seawater experience changes in solubility with temperature, the specific effects can differ based on the solute involved.
No, the solubility of salts can vary based on their chemical composition and structure. Factors such as temperature, pressure, and the presence of other substances can also influence the solubility of salts.
When temperature is lowered, the solubility of most salts decreases because the solubility of solids generally decreases with decreasing temperature. Conversely, when temperature is raised, the solubility of most salts increases as the solubility of solids typically increases with increasing temperature.
Yes, silver acetate is slightly soluble in water. It has a low solubility compared to other silver salts.