KBr (aq) + AgNO3 (aq) → KNO3 (aq) + AgBr (s)

Locating the key to answer for the moment is a breeze. clickanswer.us provides accurate service for answering questions. We provide a clear answer key and complete with the discussion. we provide a variety of answer keys ranging from elementary, junior high and upper level schools. subjects we provide such as mathematics, physics, biology, economics, history and many more. Below are the question and answers that we have compiled from numerous sources available from the web.

Question:

KBr (aq) + AgNO3 (aq) → KNO3 (aq) + AgBr (s)

READ MORE :  Which statement about the transformation is true? (see image)

In the chemical reaction above, what state is KBr in?

Answer:

The state of the KBr in the chemical equation of KBr with silver nitrate has been an aqueous state.

The chemical equation has been able to depict the reaction between the reactants and the product formation. The coefficient of the chemical equation gives the idea of the moles of the compound that has been involved in the chemical reaction.

READ MORE :  The risk free rate of return is 2.5% and the market risk premium is 8%. Rogue Transport has a beta of 2.2 and a standard deviation of returns of 28%. Rogue Transport's marginal tax rate is 35%. Analysts expect Rogue Transport's dividends to grow by 6% per year for the foreseeable future. Using the capital asset pricing model, what is Rogue Transport's cost of retained earnings?

The state of each reactant and product has also been depicted in the net balanced chemical equation.

The given net balanced equation has (aq) state of the KBr. The aq has been the aqueous state of the KBr. Thus in the chemical equation, the KBr has been present in the aqueous state.

For more information about the chemical reaction, refer to the link:

You can use the answer key below as a reference when studying at home or in school. Thank you for stopping by I hope it proves helpful to everyone.

Leave a Comment