It may occure but probabilities are no.
they are both vaporization process, but evaporation occur on the surface and boiling occur by forming completed bubbles from the bottom.
Both will have the same heat, as heat is the transfer of thermal energy, and both of them being H2O, their heats will be the same, meaning that they both transfer thermal energy at the same rate because they are the same chemical. The 1kg of water will have more thermal energy and usually will have a higher temperature, as the liquid phase indicates more thermal energy than solid ice.
The difference is the evaporation heat (or the 'equal' condensation heat)
No, no. Of course not. The amount of heat Q required to increase the temperature of a body of mass m having specific heat capacity c through DO degrees celsius is given by: Q = mcDO Thus, the one with the higher specific heat capacity will require more heat energy.
"Heat" doesn't refer to the temperature, but to the amount of thermal energy - for two substances of the same type, that would basically be the temperature multiplied by the mass. (For a more detailed analysis, you would also have to consider latent heat for phase changes, and an object's specific heat.) First, heat and temperature are not the same thing, a common misconception. All matter has what is called a "Specific Heat" (c) which is the amount of energy needed to raise its temperature by one degree Kelvin. Water for instance has a specific heat of 4181 J/(kg*K). (joule per kilogram per degree kelvin)
yes your mum had heat transfer with your dad
broadband - A transmissiontechnique that carries more than one type of transmission on the same medium,
the difference is transmission occur in same medium,but refraction occurs whn 2 medias are there,its actually bending of light at interface of 2 medias
Though sand and soil have the same specific heat, sand absorbs more heat.
they are both vaporization process, but evaporation occur on the surface and boiling occur by forming completed bubbles from the bottom.
Yes, multiple aneurysms can occur.
No the transmission will not overheat, the wrong type of fluid could just ruin it the transmission. Same with also using too low or high amounts of fluid. That's why they recommend using the right type of transmission fluid.
Lightning does occur in different places, but many more times then 2!
When a body is at the same temperature as its surroundings there will be no more transfer of heat.
The one who transmits more data bits in the same length of time, or the same number of data bits in less time, has the faster transmission rate.
You can determine if an object is receiving more heat than it is passing on by monitoring its temperature increase. If the object's temperature is rising, it is receiving more heat than it is passing on. If the object's temperature is dropping, it is passing on more heat than it is receiving. If the object's temperature remains constant, it is receiving and passing on heat at the same rate.
No, maintenance and transmission is not the same thing.