Starting with the following equation, BCI,(g) + LIAIH,(s) → B̟H (g) + LIAICI,(s) calculate the moles of BCI, that will be required to produce 365 grams of B,H.

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### Chemistry Problem: Calculating Moles of BCl₃ **Problem Statement:** Starting with the following equation: \[ \text{BCl}_3 (g) + \text{LiAlH}_4 (s) \rightarrow \text{B}_2\text{H}_6 (g) + \text{LiAlCl}_4 (s) \] Calculate the moles of \(\text{BCl}_3\) that will be required to produce 365 grams of \(\text{B}_2\text{H}_6\). **Instructions:** - Begin by determining the molar mass of \(\text{B}_2\text{H}_6\). - Use the stoichiometry from the balanced chemical equation to find the required moles of \(\text{BCl}_3\). **Calculator Interface:** The image shows a basic calculator interface with digits 0-9, a decimal point, and a plus/minus button. There are input fields labeled "mol" for entering values.

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Starting with the following equation, \[ \text{BaCl}_2(\text{aq}) + \text{Na}_3\text{PO}_4(\text{aq}) \rightarrow \text{Ba}_3(\text{PO}_4)_2(\text{s}) + \text{NaCl}(\text{aq}) \] calculate the mass in grams of BaCl₂ that will be required to produce 41.5 grams of Ba₃(PO₄)₂. Next to the text, there is a calculator interface with a numeric keypad including: - Numbers 0-9 - A decimal point - A +/- button