the true metal is highly resistant to corrosion and can be used to store corrosive liquids. Because lead is malleable and resistant to corrosion it is used extensively in the building industry. It is also poisonous and dangerous to human health. Its use dates back to 6400BC
The compound formed when lead reacts with iodine is lead(II) iodide, with the chemical formula PbI2.
When carbon reacts with lead oxide, it produces lead metal and carbon dioxide as byproduct.
When lead reacts with oxygen, it forms lead oxide (PbO). Lead oxide can have different forms depending on the oxidation state of lead.
Lead reacts with oxygen to produce lead oxide. The chemical formula for lead oxide is PbO.
Zinc reacts the fastest with sulfuric acid, followed by magnesium, and then lead. Zinc has a higher reactivity compared to magnesium and lead, leading to a quicker reaction when exposed to sulfuric acid.
In this reaction, a colorless salt, lead nitrate is formed.
When ammonium oxalate reacts with lead nitrate, insoluble lead oxalate is formed as a yellow precipitate. This reaction is a double displacement reaction where the cations switch partners to form the products.
When lead nitrate reacts with thioacetamide, lead sulfide is formed as a dark precipitate. The reaction can be represented as follows: Pb(NO3)2 + CH3CSNH2 -> PbS + CH3C(O)NH2 + HNO3.
Watering a tomato plant with brine, which is high in salt content, can lead to dehydration and stress on the plant. The excessive salt in the soil can hinder the plant's ability to absorb water and nutrients, ultimately causing damage to the roots and leaves. Continued exposure to brine can eventually lead to stunted growth, wilting, and even death of the tomato plant.
Chemical.
lead
Lead acetate paper turns black in the presence of hydrogen sulfide gas. Hydrogen sulfide reacts with lead acetate to form lead sulfide, which is black in color. This reaction is commonly used as a test for the presence of hydrogen sulfide gas.