Consider the following reaction: 2HB1(aq) + Ba(OH)2(aq) → 2H2O(1) + BaBr2(aq) Enter the complete ionic equation for this reaction. Express your answer as a complete ionic equation. Identify all of the phases in your answer. 0. ΑΣφ ? OArhemical reaction does not occur for this question. Submit Previous Answers Request Answer

Transcribed Image Text:

**Educational Content: Ionic Equations** --- ### Topic: Writing Complete Ionic Equations **Consider the Following Reaction:** \[ 2\text{HBr}(\text{aq}) + \text{Ba(OH)}_2(\text{aq}) \rightarrow 2\text{H}_2\text{O}(\text{l}) + \text{BaBr}_2(\text{aq}) \] #### Task: - **Objective:** Enter the complete ionic equation for this reaction. - **Instructions:** Express your answer as a complete ionic equation. Identify all of the phases in your answer. - **Input Field:** A text box is provided to input the complete ionic equation. - **Submission:** Click "Submit" once you've entered your answer. - **Options:** There is a checkbox to select if a chemical reaction does not occur for this question. --- For further guidance, you may want to reference **Pages 336 - 337, Section 8.6** in the textbook. **Actions Available:** - **Submit:** Turn in your answer. - **Previous Answers:** Review your past submissions. - **Request Answer:** If you need assistance with the question. --- Understanding the reaction involves recognizing that **HBr (hydrobromic acid)** in aqueous solution dissociates into \(\text{H}^+\) and \(\text{Br}^-\) ions, and **Ba(OH)₂ (barium hydroxide)** dissociates into \(\text{Ba}^{2+}\) and \(\text{OH}^-\) ions. After the reaction, the formation of water and \(\text{BaBr}_2\) occurs, with \(\text{BaBr}_2\) dissociating into \(\text{Ba}^{2+}\) and \(\text{Br}^-\) ions. If you require further clarification, refer to the additional resources provided in the textbook.