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There is no such element as this is physically possible. The liquid state is only achieved when the temperature has reached the melting point of the material. And, the melting point is, by definition, at a higher temperature than the freezing point. However, there are substances that are liquids in cold temperatures (many oils) as well as substances that are solids in warm temperatures (most metals); but this does not mean that the oils do not freeze and the metals do not melt.
Depending upon the equal amount of salt that is present, more will dissolve in warm than room temperature than cold, and the rate of dissolution will be faster for warm water than room temperature than cold.
Not at all. At room temperature ( around 22 degress C or 70 degrees F) most metals a solid however, some are liquid. The most common is Mercury, used in thermometers, which is a shiny silver liquid at room temperature. Another one is gallium, a rare metal that wil melt into a liquid in a warm room - or if you hold a piece in your hand. Francium is another metal with a very low melting point which can be a liquid in a warm room. However, francium is radioactive and exists only in very small quantities. All metals, however, can melt to form liquids if heated to a high enough temperature. Common ones that melt at relatively low temperatures are lead and tin. 'Wood's metal' - a mixture of metals such as lead, tin, antimony and bismuth, melts in hot water. In the practical joke UK TV programme 'Candid Camera' back in the 1960s, teaspoons in a cafe were made with Wood's metal. When customers stirred their coffee or tea, their spoons melted much to their disbelief and the audience's delight. Some metals have extremely high melting points. The 'king' is tungsten, which has a melting point well over 3000 degrees C - over half as hot as the surface of the sun, so liquid tungsten is a rarity. metals can also be gases. Mercury vapour is used in fluorescent lights. Mercury vapour is colourless and has no smell - but is extremely poisonous. Another answer No. All metals are liquid if you get them hot enough. Mercury is liquid at room temperature, but solidifies if you get it cold enough.
Bromine and mercury are the only two elements that are liquid at standard temperature and pressure. (If a room is moderately warm, as in tropical countries without air conditioning, cesium is also liquid at "room temperature".)
yeah cold water is denser than room temperature (warm) water.
Caesium is usually a solid, but it does have a low melting point, and that's 83 °F (28 °C). This means that if you had a vial of caesium in your hand, and you were in a warm room, the caesium would melt. Caesium is one of only five metals that is a liquid at or near room temperature. Wikipedia has additional information on caesium. You'll find a link to their post on this element just down below here.
Unless your room is rather on the warm side, decanoic acid would be solid; it melts at about 31 degrees Celsius.
Room temperature is about 55 degrees
Warm. With butter.
If the temperature of the area the dissolving solid is in is warm, the air can make the dissolving solid warm too, and eventually completely dissolve the object.
Well they way it changes is how the temperature forms
There is no such element as this is physically possible. The liquid state is only achieved when the temperature has reached the melting point of the material. And, the melting point is, by definition, at a higher temperature than the freezing point. However, there are substances that are liquids in cold temperatures (many oils) as well as substances that are solids in warm temperatures (most metals); but this does not mean that the oils do not freeze and the metals do not melt.
Yes They are heated to room temperature
kinda its more like room temperature but its more warm than cold
Depending upon the equal amount of salt that is present, more will dissolve in warm than room temperature than cold, and the rate of dissolution will be faster for warm water than room temperature than cold.
A warm room will make it dry faster.
The beaker will eventually cool down, while the room will warm up. The room, having a much larger mass, will only warm up slightly.