It depends, if the susexphuri acid is of a high concentration and is hot, then the copper plate will react and dissolve. sex though it is not a strongly oxidizing acid, hot concentrated sulfuric acid is a strong enough oxidizing agent to dissolve copper.
When dilute sulfuric acid is poured on a copper plate, a redox reaction occurs where copper reacts with sulfuric acid to produce copper sulfate, water, and hydrogen gas. The copper plate dissolves, forming a blue-green solution. Heat may also be produced during the reaction.
When dilute sulphuric acid is poured on a copper plate, hydrogen gas will be evolved. The chemical equation for the above reaction is: Cu + H2SO4 -> CuSO4 + H2.
No chemical reaction occurs, because copper is lower than hydrogen in the Electromotive Series than hydrogen.
When copper reacts with dilute sulphuric acid, copper sulfate and hydrogen gas are produced. The copper sulfate formed will be a blue solution. This reaction is a redox reaction, where copper is oxidized and hydrogen is reduced.
When dilute sulfuric acid is poured on a copper plate, a chemical reaction occurs where the sulfuric acid reacts with the copper to form copper sulfate, water, and sulfur dioxide gas. This reaction will cause the copper plate to dissolve and create a blue-green solution of copper sulfate. Heat and bubbles may also be observed as the reaction takes place.
When dilute hydrochloric acid is poured on a copper plate, no reaction occurs. Copper does not react with hydrochloric acid under normal conditions because it is less reactive than hydrogen.
When sulfuric acid is poured on a copper plate, a redox reaction occurs, result in the production of copper sulfate, water, and sulfur dioxide gas. The reaction will also cause the copper plate to corrode, forming a greenish-blue layer of copper sulfate on its surface.
equation = copper+suphuric acid=copper sulphate+hydrozen
Sulfuric acid react with copper.
When dilute sulfuric acid is poured on a copper plate, a chemical reaction occurs where the sulfuric acid reacts with the copper to form copper sulfate, water, and sulfur dioxide gas. This reaction will cause the copper plate to dissolve and create a blue-green solution of copper sulfate. Heat and bubbles may also be observed as the reaction takes place.
When sulfuric acid is poured on a copper plate, a redox reaction occurs, result in the production of copper sulfate, water, and sulfur dioxide gas. The reaction will also cause the copper plate to corrode, forming a greenish-blue layer of copper sulfate on its surface.
When copper reacts with dilute sulphuric acid, copper sulfate and hydrogen gas are produced. The copper sulfate formed will be a blue solution. This reaction is a redox reaction, where copper is oxidized and hydrogen is reduced.
When dilute hydrochloric acid is poured on a copper plate, no reaction occurs. Copper does not react with hydrochloric acid under normal conditions because it is less reactive than hydrogen.
equation = copper+suphuric acid=copper sulphate+hydrozen
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When hydrochloric acid is poured on limestone rock, a chemical reaction occurs where the acid dissolves the limestone, releasing carbon dioxide gas. This reaction forms calcium chloride and water as products. Over time, the limestone will be eroded by the acid.
It releases bubbles if carbon dioxide gas.
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When a few drops of sulfuric acid are poured onto zinc metal, a chemical reaction occurs where hydrogen gas is produced and zinc sulfate is formed. This reaction is exothermic and can be quite vigorous, potentially with bubbling and heat evolution. It is important to handle sulfuric acid with care as it is corrosive.
When dilute hydrochloric acid is poured on magnesite, carbon dioxide gas is produced. Magnesite is a mineral composed of magnesium carbonate, and when it reacts with hydrochloric acid, it forms magnesium chloride, water, and carbon dioxide gas.