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∙ 9y agoA liquid compound that vaporizes readily at room temperature is called a volatile liquid. An example of this would be gasoline or rubbing alcohol
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∙ 14y agoWiki User
∙ 9y agoMolecular Compound.
Anonymous
Dohso
Water leaking from a furnace most likely occurs from the heat of the furnace which transforms into a liquid. The best way to avoid the leak is to put your furnace at a lower temperature.
It's possible. I'd be wary assuming this is the problem. If you can replace with an identical thermal fuse and test, I would. It is very likely you have an overheating issue, though. Clean whatever the fuse is meant to protect thoroughly. If this is in a light fixture, i would be tempted to replace with a lower energy light bulb.
It sounds more like a water heater issue, more than likely you are heating your water with a boiler and there are either coil cleaning or, control issues.
If the filament really was made from a material that has a negative temperature coefficient (as temperature increases, resistance decreases) then the decreasing resistance would cause more and more current to be taken as the lamp heated up and the temperature would get higher and higher in a runaway manner until either the power supply's breaker would trip or (more likely) the light bulb's filament would simply burn open. In fact the filament has to be made from a material that has a positive temperature coefficient. (As temperature increases, resistance increases.) Then, as the bulb's temperature rises, its filament's increasing resistance causes less current to be taken than when it was cold. Quite quickly a stable "steady-state" temperature and "running" resistance is reached so that the bulb simply continues to give out a steady amount of light according to the current it is taking from the electricity supply.
When dc motor run full torque at low speed. Armature current is high and field current is set to max to get the torque. When motor is field weaken then temperature decrease at same cooling air flow
Lithium is most likely to react and form a compound because it is a highly reactive alkali metal that readily forms compounds with other elements. Neon is a noble gas and is very stable, while carbon and fluorine are nonmetals that may react but not as readily as lithium.
Zn and K are more likely to form an ionic compound because zinc (Zn) readily loses two electrons to form a 2+ cation, while potassium (K) readily gains one electron to form a 1- anion, allowing for the formation of an ionic bond between the two elements.
Elements that are close to each other in the periodic table are more likely to readily form compounds. For example, sodium (Na) and chlorine (Cl) readily form the compound sodium chloride (NaCl) because they are adjacent to each other in the same period.
Sodium (Na) is the element that would most likely form an ionic compound with fluorine (F). Sodium readily gives up an electron to fluorine to achieve a stable electron configuration, forming sodium fluoride (NaF) which is an ionic compound.
Yes, iodine is likely to form an ionic compound with chlorine due to their large difference in electronegativity. Iodine can easily lose an electron to form a positively charged ion, while chlorine can readily gain an electron to form a negatively charged ion, resulting in the formation of an ionic compound.
Yes, an ionic compound is likely to form between fluorine and lithium. Fluorine, being a highly electronegative element, will readily accept an electron from lithium, which is a metal with low electronegativity. This transfer of electrons will result in the formation of an ionic bond between the two elements.
The compound you describe would most likely be a gas at a room temperature of about 26 degrees Celsius, given that the compound is at a standard pressure of 1 atmosphere as well. If you specify the compound, or the pressure at which it melts rather than just temperature; one could provide a better and more precise answer, but with your information I have provided my best assumption.
K+ So it loses one electron
Potassium and Lanthanum would most likely form a chemical compound through ionic bonding, while Iodine and Neon would not form a compound because Neon is a noble gas and does not readily react with other elements.
A compound that is likely not a gas at room temperature would be a larger molecule with higher molecular weight, such as a long-chain hydrocarbon or a complex organic molecule. These molecules have stronger intermolecular forces holding them together, making them more likely to be in a liquid or solid state at room temperature.
NaF is more soluble in water compared to MgO. This is because NaF is an ionic compound that readily dissociates into its ions (sodium and fluoride) in water, while MgO is a covalent compound that is less likely to dissociate in water.
Chlorine has a high electronegativity, meaning it has a strong tendency to attract electrons. This property makes it likely to form a compound with an alkali metal through ionic bonding, where the alkali metal loses an electron to chlorine to achieve a more stable electron configuration.