Propane boils at -44F so there is 'no flow' below this temperature, it will not vaporize. The ignition temperature is between 920 to 1200F.
Yes, temperature can affect the rate of osmosis. Generally, an increase in temperature can increase the rate of osmosis, as it causes molecules to move more quickly, leading to more rapid diffusion across a semi-permeable membrane. Conversely, a decrease in temperature can slow down the rate of osmosis.
You can control the rate of reaction for a Bunsen burner by adjusting the air and gas flow. Increasing the air flow will result in a higher rate of combustion and a hotter flame, while reducing the air flow will lower the flame temperature. Similarly, increasing the gas flow will increase the flame size and temperature, while reducing the gas flow will have the opposite effect.
Burning 1 standard cubic foot of propane produces approximately 2,500 BTU. Therefore, burning 92000 BTU worth of propane would equal approximately 36.8 standard cubic feet of propane. The temperature produced would depend on how efficiently the propane is burned and any heat loss to the surroundings.
Factors that can affect the adjusted retention time in gas chromatography include the type of stationary phase, the temperature of the column, the flow rate of the carrier gas, and the chemical properties of the analyte being separated.
The factors that can affect the rate constant in the Arrhenius equation are temperature and activation energy. Increasing the temperature will increase the rate constant, as reactions occur more rapidly at higher temperatures. Similarly, changing the activation energy required for the reaction will also impact the rate constant.
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It affects the rate of flow of the lava. Hotter means faster flow
The temperature of a propane flame is theoretically about 2,000 °C (3,600 °F) but may be lower in practice, due to various factors (fuel/air mixture, flow rate, humidity, etc.).
higher temperature lower flow rate.
The temperature, air flow, spray rate, and atomisation pressure affect the film coating of drugs.
The higher the temperature, the higher the rate of evaporation. It is
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The rate increases
As temperature increases, the volumetric flow rate of a gas typically increases due to the gas particles gaining kinetic energy and moving faster. In contrast, for liquids, changes in temperature can cause variations in viscosity, affecting flow rate. Generally, higher temperatures reduce the viscosity of liquids, leading to a higher volumetric flow rate.
Liquor evaporates when its molecules gain enough energy to break free from the liquid and turn into vapor. Factors that can affect the rate of evaporation include temperature, surface area, humidity, and air flow.
Generally increasing the temperature and concentration the reaction rate is higher.
In most cases, increasing the temperature increases the rate of the reaction.