Final answer:
The question about the product of a reaction between ethanol and hydride does not lead to any of the given answer choices, as ethanol does not typically react with hydride ions to form a compound that would be named as such. The interaction between ethanol and hydride might occur in a laboratory reduction reaction but would not be referred to by these terms.
Step-by-step explanation:
The student asked what the product of the reaction between ethanol and hydride results in. To address this question, it is first important to note that the term 'hydride' generally refers to the hydride ion, H-, which can act as a reducing agent. When ethanol (C2H5OH) reacts with a hydride ion, it typically undergoes a reduction process. However, this question doesn't provide a fully accurate representation of ordinary chemical reactions involving ethanol and hydride ions.
In fact, ethanol doesn't directly react with hydride ions to form a distinct compound as suggested by the provided answer options. The interaction between ethanol and hydride ions might rather be encountered in reduction reactions where ethanol is being reduced to ethyl anions or other related species in a laboratory setting, which is not a typical textbook reaction, and would not be named as any of the options given (A, B, C, or D).
Thus, strictly speaking, none of the provided options (A) Ethanol hydride, (B) Ethanol-hydride, (C) Ethyl hydride, or (D) Hydride ethanol correctly describes the product of a reaction between ethanol and hydride ions. In standard chemistry nomenclature, these terms don't represent a typical reaction product, and option (C) Ethyl hydride, which might suggest a compound similar to ethane, isn't typically formed in reactions involving ethanol and hydride ions.