The amount of time depends on the latent heat of vaporisation and the latent heat of melting.
No, the greater the surface area the faster the ice cube will melt.
Yes, absolutely. Heat transfer from the surrounding environment into the ice cube causes it to melt. The greater the rate of heat transfer INTO to ice cube, the faster it will melt. The greater the surface area of the ice cube, in relation to it size, the faster the melting will occur. The ideal shape for the least heat transfer [and this is true for cold or hot objects] is a SPHERE. A sphere has the minimum surface area for the mass of the object. Any shape other than a sphere has more surface area for the mass, an will melt faster. The thinner more spreak out ice will melt faster melting consumes enerhy inthe form of heat. The amount of energy needed is the proportional of the ice water. The heat applied to it can be radiation or matter. Johnson Kevin, Ohio
At 200 C:-- All metals become hot to the touch.-- The electrical resistivity of all metals becomes greater than at room temperature.-- The volume of all metals becomes greater than at room temperature.-- Some metals, but not all, melt (become liquid).
it takes 2 minutes for it to melt
Under normal conditions vinegar is a liquid and so does not need to melt.
If you are a solid, you melt. If you are a liquid, like water, you vaporize.
You can melt it and even vaporize it, but "overheat" - no.
Like around the chrona or something. And you would actually vaporize you-not melt you.
You wouldn't melt, You would vaporize into nothing as soon as you leave earth's atmosphere.
Disappear, Disperse, dissipate, fade, melt, vanish, vaporize, weaken.
There are different types of forces that must be overcome to either vaporize or melt a given substance. These forces includes the hydrogen bond, the London dispersion forces, and the dipole-dipole forces.
It will melt at first and then slowly start to vaporize
They melt (liquefy), freeze (solidify), vaporize, or condense.
yes, it is so hot it caneasily melt sand and dirt and instantly vaporize metals
It's certainly possible to melt gold without vaporizing it (in fact, it's kind of hard to vaporize gold; the boiling point is over 3000 K ... more than 5000 degrees Fahrenheit).
The difference between the temperature at which the sample begins to melt and at the temperature at which the sample completely melted-
An ambient temperature that is greater than the ice will cause it to melt.