Because gasoline expands and contracts based on temperature, the industry uses a standard temperature -- 60 degrees Fahrenheit -- as part of its definition of a gallon. To the industry, a gallon of gasoline is the amount of fuel that occupies 231 cubic inches at 60 degrees. But at 75 degrees, the same amount of fuel occupies 233.4 cubic inches. At 90 degrees, the gas expands to 235.8 cubic inches. Look at the link provided and you will see the mystery of hot fuel and the money to be made by it.
Yes, liquid gasoline can expand when heated. As it absorbs heat, the molecules within the gasoline move more rapidly, causing them to spread out and take up more space, leading to expansion.
The characteristic of matter that causes it to expand when the temperature increases and contract when the temperature decreases is known as thermal expansion. This is because as the temperature rises, the particles within the material gain kinetic energy and move more, causing the material to expand. Conversely, when the temperature decreases, the particles lose kinetic energy and move less, leading to contraction.
i wouldn't have much of a clue but i think it's gunpowder that is put in fireworks (or whatever it is (find that out) Then look up the temperature at which whatever chemical it is burns at.
"Expand on the ideas" means to provide more details, examples, explanations, or insights about the ideas that have been mentioned. It involves elaborating on the main points or concepts to provide a deeper understanding of the topic.
An example of a primary effect is when an increase in the price of gasoline leads to a decrease in the quantity demanded by consumers.
Gasoline is stored in tanks underground. The outside temperature has no effect on the temperature of the fuel stored underground.
The volume of gasoline increases with temperature. When gasoline is warmer at 80 degrees F compared to 60 degrees F, it will expand and occupy a larger volume than the same amount of gasoline at the lower temperature.
Temperature affects the weight of gasoline because gasoline expands and contracts with changes in temperature. At higher temperatures, gasoline expands and becomes less dense, while at lower temperatures it contracts and becomes denser. This change in density can result in a difference in weight when measuring gasoline at different temperatures.
Yes, liquid gasoline can expand when heated. As it absorbs heat, the molecules within the gasoline move more rapidly, causing them to spread out and take up more space, leading to expansion.
The amount a bearing will expand when heated depends on factors such as material composition and temperature. However, typically a bearing will expand around 0.0005 inches per inch of diameter for every 100Β°F increase in temperature.
The thermal expansion coefficient for motor spirit, also known as gasoline, is approximately 0.00096 per degree Celsius. This means that for every degree Celsius increase in temperature, gasoline will expand by 0.00096 of its original volume.
Gasoline is used to power a variety of objects that have motors. At room temperature, gasoline is a liquid, just like one would get out of the pump at the petrol station.
The critical temperature of gasoline is the temperature at which it becomes combustible and varies according to the pressure the gas is under. On average this temperature is 241 degrees Celsius.
Gasoline is in a liquid state at room temperature.
No, the BTU (British Thermal Unit) value of gasoline does not increase if the temperature decreases. The BTU value of gasoline is a measure of its energy content and is not affected by temperature changes.
No, liquids do not expand and contract at the same rate. Different liquids have different coefficients of expansion, which determine how much they expand or contract with changes in temperature. This property is important when designing systems where temperature changes may affect the volume of the liquid.
Gasoline is liquid at standard temperature and pressure.