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How can you fill container or flask with pure oxygen without mixing it with air?
If you could create an apparatus that would allow oxygen to be introduced from the bottom of a container filled with water, and allowed the oxygen to displace the water, pushing the water out of a valve of some sort at the bottom, you would prevent any air from mixing with the oxygen (picture an upside down flask). It would take some engineering, but the theory is sound.
If there was to be an immense amount of air pressure in a container able to withstand it would water be able to move freely within the container?
Yes, water would still be able to move freely within the container regardless of the air pressure, as long as the container can withstand it. The movement of water would not be restricted by the air pressure in this scenario.
What would happen if you distilled a sugar water solution?
If you distilled a sugar water solution, the water would evaporate and be collected as vapor, leaving the sugar behind. As the temperature increases, the water turns into steam, while the sugar, which has a much higher boiling point, remains in the distillation flask. The result would be distilled water free of sugar, and the residual sugar would be concentrated in the original container. This process effectively separates the two components based on their differing boiling points.
What is flat bottom flask?
A flat bottom flask would be an Ehrlemeyer flask, which is used quite a lot by chemists.anf
What would happen to a spot of water soluble ink consisting of a single coloured dye if it were used in distillation?
During distillation, the water-soluble ink would be subjected to heat, causing the water component to evaporate first. The dye, being less volatile, would likely remain in the distillation flask as a residue. If the dye were to dissolve in the distillate (the evaporated water), it would typically not concentrate in the vapor phase, thus separating the dye from the water. Ultimately, the distilled water would be free of the dye, while the dye would remain in the original container.
What equipment is needed to heat water with a Bunsen burner?
To heat water with a Bunsen burner, you would need a Bunsen burner, a heat-resistant container to hold the water such as a beaker or flask, a tripod or wire gauze to support the container over the flame, and a source of water to be heated. Optional equipment could include a thermometer to monitor the temperature of the water.
How do you find the volume of a paperclip?
To find the volume of a paperclip, you would first need to measure its dimensions - typically the length, width, and height. Next, you would calculate the volume by multiplying these three dimensions together. The formula for finding the volume of a rectangular prism (which is similar in shape to a paperclip) is Volume = Length x Width x Height.
When the water level is higher inside than outside the flask is the gas pressure in the flask higher or lower or the same as the atmospheric pressure?
When the water level is higher inside the flask than outside, the gas pressure in the flask would be lower than the atmospheric pressure. This is because the water exerts a partial vacuum on the gas in the flask, reducing its pressure compared to the external atmospheric pressure.
Sam filled a 500ml conical flask with 200ml of water Then he attached a 100ml syringe full of air to the conical flask and pushed the plunger inwards What was the volume of air in the flask?
The total volume in the flask is 500ml of water + 100ml of air from the syringe, which equals 600ml. Since the 200ml of water takes up space in the conical flask, the remaining volume for air is 400ml.
What would happend if there was no salt in the ocean?
All the salt water fish would die and there would be no sea salt
How can you fill container or flask with pure oxygen without mixing it with air?
If you could create an apparatus that would allow oxygen to be introduced from the bottom of a container filled with water, and allowed the oxygen to displace the water, pushing the water out of a valve of some sort at the bottom, you would prevent any air from mixing with the oxygen (picture an upside down flask). It would take some engineering, but the theory is sound.
If there was to be an immense amount of air pressure in a container able to withstand it would water be able to move freely within the container?
Yes, water would still be able to move freely within the container regardless of the air pressure, as long as the container can withstand it. The movement of water would not be restricted by the air pressure in this scenario.
If you cool a flask to -200degrise what would happen to the air?
I the flask was sealed, the air inside of the flask would take up less space and as a result, cause a drop in pressure inside the flask.
What would happen if you distilled a sugar water solution?
If you distilled a sugar water solution, the water would evaporate and be collected as vapor, leaving the sugar behind. As the temperature increases, the water turns into steam, while the sugar, which has a much higher boiling point, remains in the distillation flask. The result would be distilled water free of sugar, and the residual sugar would be concentrated in the original container. This process effectively separates the two components based on their differing boiling points.
What is flat bottom flask?
A flat bottom flask would be an Ehrlemeyer flask, which is used quite a lot by chemists.anf
What was the thing ancient Romans used to carrywater?
Well, if they were carrying small amounts of water they would use a skin flask that they could carry with them. If they were getting water for their houses they would use amphorae of varying sizes. If they needed a large amount of water, say to supply an entire town, they would pipe water in through an aqueduct.Well, if they were carrying small amounts of water they would use a skin flask that they could carry with them. If they were getting water for their houses they would use amphorae of varying sizes. If they needed a large amount of water, say to supply an entire town, they would pipe water in through an aqueduct.Well, if they were carrying small amounts of water they would use a skin flask that they could carry with them. If they were getting water for their houses they would use amphorae of varying sizes. If they needed a large amount of water, say to supply an entire town, they would pipe water in through an aqueduct.Well, if they were carrying small amounts of water they would use a skin flask that they could carry with them. If they were getting water for their houses they would use amphorae of varying sizes. If they needed a large amount of water, say to supply an entire town, they would pipe water in through an aqueduct.Well, if they were carrying small amounts of water they would use a skin flask that they could carry with them. If they were getting water for their houses they would use amphorae of varying sizes. If they needed a large amount of water, say to supply an entire town, they would pipe water in through an aqueduct.Well, if they were carrying small amounts of water they would use a skin flask that they could carry with them. If they were getting water for their houses they would use amphorae of varying sizes. If they needed a large amount of water, say to supply an entire town, they would pipe water in through an aqueduct.Well, if they were carrying small amounts of water they would use a skin flask that they could carry with them. If they were getting water for their houses they would use amphorae of varying sizes. If they needed a large amount of water, say to supply an entire town, they would pipe water in through an aqueduct.Well, if they were carrying small amounts of water they would use a skin flask that they could carry with them. If they were getting water for their houses they would use amphorae of varying sizes. If they needed a large amount of water, say to supply an entire town, they would pipe water in through an aqueduct.Well, if they were carrying small amounts of water they would use a skin flask that they could carry with them. If they were getting water for their houses they would use amphorae of varying sizes. If they needed a large amount of water, say to supply an entire town, they would pipe water in through an aqueduct.
How would I calculate the mass of air in an empty flask?
From the volume of the flask, and the density of air under the conditions in the room, you can calculate the mass of air. The density of air varies with pressure, temperature, humidity, etc. At sea level and at 15 °C air has a density of approximately 0.001225 g/ml, so under these conditions, a liter flask would contain (1000 ml)(0.001225 g/ml) = 1.225 g of air.
