yes
7.19 g/100 ml (20 °C)
57 g/100 mL (100 °C)
Yes, K3CrO4 is considered a soluble molecule. This ionic compound is soluble in water. It is frequently used a chemical indicator.
The alkali metals, calcium, and magnesium form soluble chromates. Most other metal chromates are insoluble in water.
yes because it is a chromate with an Alkali metal
Sodium chromate is soluble in water.
The solubility of barium chromate in water is very low - approx. 0,3 g/L at 0 oC.
I believe thatKCrO4 is soluble in water
yes
soluble
K2CrO4 is named potassium chromate. It is a salt combining mono atomic potassium cations and polyatomic chromate cations and is quite soluble in water. Its solutions in water are highly oxidizing.
KCrO4 does not exist it is K2CrO4 and is called Potassium Chromate. Potassium dichromate is K2Cr2O7
BaCl2+K2CrO4--------->BaCrO4+2KCl BaCrO4 is a yellow precipitate.
BaCrO4
yellow
K2CrO4 is named potassium chromate. It is a salt combining mono atomic potassium cations and polyatomic chromate cations and is quite soluble in water. Its solutions in water are highly oxidizing.
K2CrO4 Molarity (concentration) = moles of solute/Liters of solution (100 ml = 0.100 Liters ) Find moles K2CrO4 first. 3.50 grams = (1 mole K2CrO4/194.2 grams) = 0.01802 moles K2CrO4 ----------------------------------------------next Molarity = 0.01802 moles K2CrO4/0.100 Liters = 0.180 M K2CrO4 -------------------------
inorganic
What really combines is silver ion. Silver chloride is 1/10 soluble than silver chromate in the cold, 1/3 in hot water. That means silver will incline to precipitate as AgCl preferentially. Moreover, if chromate will form it will convert to silver chloride
KCrO4 does not exist it is K2CrO4 and is called Potassium Chromate. Potassium dichromate is K2Cr2O7
Chromate
Formula: K2CrO4
It depends on how much you have.
Formula: K2CrO4
Formula: K2CrO4
Formula: K2CrO4
BaCl2+K2CrO4--------->BaCrO4+2KCl BaCrO4 is a yellow precipitate.