To convert density in air to vacuum in oil, you can use the ideal gas law equation, which states that the density of a gas is proportional to its pressure and inversely proportional to its temperature. You would need to consider the change in pressure and temperature between the air and the oil to make this conversion accurately. Additionally, you may need to account for any changes in the properties of the substance itself when moving from air to oil.
Specific gravity of a substance is defined as its density relative to the density of water. To convert the density of crude oil into specific gravity, you can divide the density of the crude oil by the density of water (1000 kg/m³ at 4°C). This will give you the specific gravity of the crude oil relative to water.
The weight of an object is maximum in air, as air offers more resistance to the weight of the object compared to water, vacuum, or oil.
The oil stays in the funnel because air needs to flow in to replace the oil that is leaving. Without air coming in, a vacuum forms and prevents the oil from flowing freely into the bottle.
To calculate the volume, you need to divide the mass of the oil (480 g) by its density (0.6 g/mL). First convert the mass to grams to kilograms by dividing by 1000 to get 0.48 kg. Then divide the mass by the density to get the volume in liters, which would be 0.8 liters.
To convert liters of oil to kilograms, you need to know the density of the oil. The density of oil can vary, but for crude oil, it is typically around 0.85 kg per liter. So, 208 liters of oil would be approximately 176.8 kilograms (208 * 0.85).
You need to know the density of the oil.
Specific gravity of a substance is defined as its density relative to the density of water. To convert the density of crude oil into specific gravity, you can divide the density of the crude oil by the density of water (1000 kg/m³ at 4°C). This will give you the specific gravity of the crude oil relative to water.
The weight of an object is maximum in air, as air offers more resistance to the weight of the object compared to water, vacuum, or oil.
You need to find the density of the oil, from this you will be able to calculate the volume.
What sealed vacuum system are we talking about?
The density of mineral oil is around 0.8 g/cm3, so to convert 100 cm3 to grams, you would multiply 100 cm3 by the density of mineral oil, which equals 80 grams.
To convert cubic meters to metric tons of fuel oil, you need to know the density of the fuel oil in metric tons per cubic meter. Once you have the density value, you can multiply the number of cubic meters by the density to get the mass in metric tons. The formula for this conversion is: Mass (in metric tons) = Volume (in cubic meters) x Density (in metric tons per cubic meter).
It is 607 millilitres.
You will have to flush the hoses with a solvent and compressed air, install low and high side conversion fittings, evacuate the system with a vacuum pump, and then recharge the system with oil charge and R134.
"Air" and "Vacuum" describe how the breaker extinguishes the arcing current. An Air breaker opens far enough that the dielectric strenght of air is enough to extinguish the arc. A vacuum breaker's contacts are in a vacuum. Oil breakers use oil. SF6 breakers use SF6 gas to extinguish the arc.
No, oil is more dense than air. The density of a substance is determined by its mass and volume, and oil has a greater mass per unit volume compared to air.
Generally, you cannot convert a VOLUME (how big) into a WEIGHT (how heavy), unless you know the specific density of the liquid. Oil density varies greatly, depending on oil type. However if you asked how to convert volume 0.9ml of WATER into grammes, then the answer is 0.9 grammes, because that is how we define a millilitre (ml). As almost all oil is "thicker" than water, then 0.9ml of oil would weigh MORE than 0.9 grammes, but the actual weight depends greatly on the type and purity of the oil.