The molecule above should be NH4SO4.It is ammonium sulphate
The formula for hydroarsenic acid is H3AsO4.
H3AsO4 is stronger than H3SbO4. This is because As (arsenic) is more electronegative than Sb (antimony), leading to a more acidic nature for arsenic compared to antimony.
H3AsO4. The additional proton (H) contributes a positive charge so that the overall charge is 0.
The oxidation state of arsenic in H3AsO4 is +5. This is because each hydrogen atom has an oxidation state of +1 and each oxygen atom has an oxidation state of -2, leading to a total of +5 for arsenic to balance the charge of the compound.
40HNO3 + As2S5 --------> 5H2SO4 +2H3AsO4 + 40NO2 + 12H2O
The formula for hydroarsenic acid is H3AsO4.
arsenic acid
H3AsO4 is stronger than H3SbO4. This is because As (arsenic) is more electronegative than Sb (antimony), leading to a more acidic nature for arsenic compared to antimony.
H3AsO4. The additional proton (H) contributes a positive charge so that the overall charge is 0.
The arsenic acid is H3AsO4.The arsonous acid is H3AsO2.
The oxidation state of arsenic in H3AsO4 is +5. This is because each hydrogen atom has an oxidation state of +1 and each oxygen atom has an oxidation state of -2, leading to a total of +5 for arsenic to balance the charge of the compound.
•H2S •H2O2 •H3PO4 •NH4+ •H3AsO4,H3AsO3 •HSO4- •HF •H3CCOOH •H2O
•H2S •H2O2 •H3PO4 •NH4+ •H3AsO4,H3AsO3 •HSO4- •HF •H3CCOOH •H2O
lF5
Oh, dude, when arsenic acid (H3AsO4) reacts with sodium hydroxide (NaOH), it forms sodium arsenate (Na3AsO4) and water (H2O). So, like, the arsenic acid loses a proton to become arsenate, and sodium hydroxide gives up its hydroxide ion to make water. It's like a chemical party where everyone swaps partners and ends up with new friends.
40HNO3 + As2S5 --------> 5H2SO4 +2H3AsO4 + 40NO2 + 12H2O
Yes, arsenic can react with acids to form various arsenic compounds, depending on the specific acid and conditions of the reaction. Arsenic is known to form arsenic acid (H3AsO4) with strong acids like sulfuric acid, or arsenic trioxide (As2O3) with weaker acids.