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Tin (Sn) when reacts with dilute nitric acid it forms tin nitrate and hydrogen gas, just like zinc, with concentrated acid it may form other products also.
Bronze is an alloy that consists of copper and usually tin. When added to nitric acid, the nitrate anions attack the tin and copper cations to produce copper (II) nitrate and Tin (II) nitrate. Nitrogen monoxide is released but reacts with oxygen in the air to produce nitrogen dioxide.
The oxides of tin are amphoteric in nature as SnO, with acid it behaves like a base and with a base like an acid.
The reaction will be Tin Nitrate and Hydrogen Gas.
hydrobromic acid + tin -> tin bromide + hydrogen 2HBr (aq) + Sn (s) -> SnBr2 (s) + H2 (g)
Tin (Sn) when reacts with dilute nitric acid it forms tin nitrate and hydrogen gas, just like zinc, with concentrated acid it may form other products also.
Tin reacts with alkalis.
mixture of tin and lead, and nothing will happen. If tin atom reacts with lead atom, none of the atoms will oxidise even if they are heated. because reaction will only occur when a metal react with acid and so on.
§ Resists corrosion due to an oxide film § Could be attacked by strong and dilute acids (such as HCl), alkali, and acid salts § At higher temperatures, it reacts with oxygen and steam to form tin oxide § Reacts with halogens to make compounds, such as tin bromide § Has two oxidation states, or variable charges, of 2+ and 4+
Bronze is an alloy that consists of copper and usually tin. When added to nitric acid, the nitrate anions attack the tin and copper cations to produce copper (II) nitrate and Tin (II) nitrate. Nitrogen monoxide is released but reacts with oxygen in the air to produce nitrogen dioxide.
because it not infected and non-perishable
tin foil. the bleach reacts to the foil because of what its made of :}:>) <3
Tin can not only react with citric acid, it can react with any acid.
The oxides of tin are amphoteric in nature as SnO, with acid it behaves like a base and with a base like an acid.
Tin is easily dissolved by the common acids.
The reaction will be Tin Nitrate and Hydrogen Gas.
hydrobromic acid + tin -> tin bromide + hydrogen 2HBr (aq) + Sn (s) -> SnBr2 (s) + H2 (g)