The question makes no sense - you can't consider two variables at once - energy and mass. Most energy for the same mass - hydrogen.
The density of water remains constant regardless of the volume or shape of the container it is in. This is because the mass of water and its volume stay the same, resulting in the same density for both a pool and a cup of water.
Condensation point is the same as boiling point of methanol: 65 °C, 338 K, 149 °F
You can't.If I tell you that the volume is "One quart", you still have no idea what the mass is.In fact, there are millions of different things it can be.If the quart volume is full of air, the mass is small.If the quart volume is full of vacuum, its mass is even smaller.If the quart volume is full of milk, its mass is medium.If the quart volume is full of rock, its mass is large.By the way ... if you know the dimensions, you can calculate the volume.Volume and dimensions give the same information.
Water and methanol are completely miscible (they will dissolve into each other in any proportion). A mixture of water and methanol will always form a clear solution (after sufficient mixing) unless there are impurities in either to start off with.
Presumably we are talking combustion of methanol? Methanol burns to make water and carbon dioxide. The energy change from carbon, hydrogen and oxygen to carbon dioxide and water is the same if it is in one step, or via the intermediate step of making ethanol.
The question makes no sense - you can't consider two variables at once - energy and mass. Most energy for the same mass - hydrogen.
No, water is heavier than methanol. Water has a higher density compared to methanol, which means that for the same volume, water will weigh more than methanol.
The density of water remains constant regardless of the volume or shape of the container it is in. This is because the mass of water and its volume stay the same, resulting in the same density for both a pool and a cup of water.
2 kgs
To prepare a 2.5 N NaOH solution in methanol, you would first calculate the amount of NaOH needed based on its molar mass and the desired concentration. Then, dissolve this amount of NaOH in the appropriate volume of methanol to make the 2.5 N solution. Be sure to wear appropriate safety gear and follow proper handling procedures when working with NaOH.
No, because the full basketball includes the mass of the air, unless you don't include the air, then they are the same.
No, the Atomic Mass is the full complete mass while the mass # is just the whole number. For example: carbon's atomis mass is 12.011 and the mass # is 12.
No. You would have to heat methanol until it became a gas. Same thing with water, and so forth.
The OH covalent bond in methanol is intramolecular, meaning it exists within the same molecule of methanol. It is responsible for connecting the oxygen atom to the hydrogen atom within the molecule of methanol.
Condensation point is the same as boiling point of methanol: 65 °C, 338 K, 149 °F
No, aqueous methanol is a polar solvent and will have higher conductivity compared to aqueous sucrose which is a non-electrolyte. Methanol dissociates into ions when dissolved in water, allowing it to conduct electricity, while sucrose remains a molecular compound and does not dissociate into ions.