Heat will flow from the boiling water into the ice cube.
water under pressure increases its boiling point as the pressure decreases it will expand by boiling, thus shooting out a geyser
Heat is the flow of thermal energy from one object to another. Heat always moves from warm objects to cool objects, not cool objects to warm objects.
When heat is transferred into an object through motion or movement, it is known as convection. In the case of boiling water, the heat is transferred through convection as the heated water at the bottom rises, and the cooler water at the top moves down to replace it, creating a circulating flow of heat.
When an ice cube melts, the physical state changes from a solid to a liquid. This occurs as the temperature of the ice cube rises above its melting point (0 degrees Celsius or 32 degrees Fahrenheit), causing the solid ice molecules to gain enough energy to break apart and flow as liquid water.
Because the effect of gravity doesn't really care about density -- all objects are accelerated at the same rate (ignoring wind resistance). Since the cup is feeling wind resistance, but the water isn't (since it's in the cup), the water is experiencing "positive" g-forces, even while falling. So gravity keeps the water in the cup.
When an ice cube is dropped into boiling water, heat will flow from the boiling water to the ice cube. This transfer occurs because heat moves from areas of higher temperature (the boiling water) to areas of lower temperature (the ice cube). As the ice absorbs heat, it will begin to melt, and the surrounding water will cool slightly until thermal equilibrium is approached.
When you drop a block of ice in boiling water, heat from the water will transfer to the ice, causing the ice to melt. The heat will continue to transfer from the water to the ice until the ice completely melts and reaches the same temperature as the water.
The pipes are frozen because the temperature dropped below freezing, causing the water inside to freeze and block the flow of water.
water under pressure increases its boiling point as the pressure decreases it will expand by boiling, thus shooting out a geyser
An example of heat energy transfer by convection is boiling water in a pot. As the water is heated, the molecules near the heat source become less dense and rise, while cooler, denser molecules flow in to take their place. This creates a circulating flow of water that transfers heat throughout the pot.
There are water currents especially with temperature changes cooler water sinks forcing the warmer water to flow to the top.
To effectively unclog a drain using boiling water, simply boil a pot of water and carefully pour it down the clogged drain. The hot water can help break down and dislodge the blockage, allowing it to flow through the pipes. Be cautious when handling boiling water to avoid burns.
It flows, by conduction, from your hand to the ice cube.
Ronald D. Boyd has written: 'Flow boiling enhancement for thermal management systems' -- subject(s): Design analysis, Flow geometry, Heat transfer, Temperature distribution, Two phase flow, Wall temperature 'Forced-air cooling of a WIPP mine drift' -- subject(s): Mathematical models, Cooling, Salt mines and mining 'Subcooled water flow boiling in a horizontal coolant channel at 0.45 MPa for fusion applications' -- subject(s): Fusion reactors, Subcooled flow boiling
heat will flow from the iron to the water until both are the same temperature
It would be convection. When the water at the bottom of the pot is heated, its particles move faster, and they also move farther apart. As a result, the heated water becomes less dense. Recall, less dense water will float on top of a more dense one. The heated water rises the surrounding cooler water flows into its place. This flow created a circular motion called convection currents. (:
Heat is the flow of thermal energy from one object to another. Heat always moves from warm objects to cool objects, not cool objects to warm objects.