Ethanol Rocket

Introduction

Theory

Ethanol 3d model

HCH bonds are assumed to be undistorded tetraherdal angle 109.5 degrees. Actually the electrons repeal each other. The HOC bond is 104.5 deg because. . .

Valence shell electron-pair repulsion theory (VSEPR theory). . .

Use CPK coloring convention, white (hydrogen), black (carbon) and red (oxygen).

Ethanol reaction with Oxygen and Air

Ethanol reaction with oxygen

${\displaystyle {\textrm {C}}_{2}{\textrm {H}}_{6}{\textrm {O}}+3{\textrm {O}}_{2}\to 2{\textrm {CO}}_{2}+3{\textrm {H}}_{2}{\textrm {O}}}$

The molecular weight of ethanol is ${\displaystyle 46.069}$ g/mol, and the molar weight of oxygen is 32 g/mol. The oxygen--ethanol fuel ratio is ${\displaystyle 3\times 32/46=2.1}$. We need ${\displaystyle 2.1}$ kg of oxygen to ${\displaystyle 1}$ kg of ethanol. The air consists of 23.2% of oxygen, thus the air--ethanol ratio is ${\displaystyle 2.1/0.232=9}$.

The volume of the bottle is ${\displaystyle V=500}$ ml which gives the amount of oxygen to be ${\displaystyle 0.232V=0.232\times 500=116}$ ml ${\displaystyle =0.116\times 1.429=0.166}$ g of oxygen, which gives the amount of ethanol ${\displaystyle 0.166/2.1=0.079}$ grams. OR directly using air--ethanol ratio (9) we have ${\displaystyle \rho V/9=1.429\times 0.5/9=0.079}$ gram. That amount equals to ${\displaystyle V/\rho _{\textrm {Ethanol}}=0.079g/(789g/l)=0.1}$ ml.

The density of oxygen

Caption text

	Density ${\displaystyle \rho }$	At
Oxygen (g)	1.429 g/l	STP
Ethanol (l)	789.45 g/l	20 °C