In that case, the metal will cool down, and the water will heat up. Also, since the temperature difference is quite big, the water will form lots of bubbles, and make a lot of noise, because of the sudden heating.
Mercury is a liquid at room temperature and becomes a gas when heated to 356 degrees Celsius. As it is heated, the particles in the liquid mercury gain energy and move more rapidly, eventually breaking free from the liquid phase and becoming a gas. At the higher temperature, the particles move faster and farther apart, transitioning from the liquid to the gaseous state.
As water at 4 degrees Celsius is heated slightly, it will start to expand and the temperature will increase. This is because water is at its maximum density at 4 degrees Celsius, and heating it will cause the molecules to move faster and spread out, leading to a volume increase and a temperature rise.
Assuming constant volume, the pressure of one cubic meter of air will increase by approximately 0.0365 atmospheres when heated by one degree Celsius. This value is derived from the ideal gas law, where pressure is directly proportional to temperature for a constant volume of gas.
When a magnet is heated up, the temperature increase can cause the magnetic properties to weaken or even disappear. This is because the heat can disrupt the alignment of the magnetic domains within the material, leading to a loss of magnetism.
As mercury is heated from 45 degrees Celsius to 365 degrees Celsius, its particles will gain energy and move faster. This increased thermal energy causes the particles to vibrate more quickly and spread out, leading to an expansion in volume. At the higher temperature, the motion of mercury particles will be more rapid and chaotic compared to when it was at 45 degrees Celsius.
100 degrees celsius
100 degree Celsius
if it is heated above 1200 degrees celsius than it melts
Nothing, a passivation occur.
When ice is heated to 0 degrees Celsius, it begins to melt and turn into water. The heat energy is used to break the intermolecular bonds holding the water molecules together in a solid structure. Once all the ice has melted, the water continues to heat up until it reaches its boiling point of 100 degrees Celsius.
The products depend upon the pressure. At high pressure HMF alongwith levulinic acid will form. At lower pressure some aromatics could form.
Mercury is a liquid at room temperature and becomes a gas when heated to 356 degrees Celsius. As it is heated, the particles in the liquid mercury gain energy and move more rapidly, eventually breaking free from the liquid phase and becoming a gas. At the higher temperature, the particles move faster and farther apart, transitioning from the liquid to the gaseous state.
The liquid molecules are transformed in gas molecules.
When gypsum is heated to 120 degrees Celsius, it undergoes a process known as calcination, where it loses water molecules and forms a different compound called bassanite. This transformation is reversible, meaning that if bassanite is exposed to water again, it will revert back to gypsum.
Refer to the related question in the Related question section below.
The liquid molecules are transformed in gas molecules.
When ice is heated, it absorbs heat energy and melts into liquid water. The temperature of the ice remains at 0 degrees Celsius until it has completely melted.