It takes about 100,000 years for a photon to move from the core of the sun to the convection zone. Photons created in the core of the sun have to undergo a random walk through the dense radiative zone before finally reaching the less dense convection zone.
Because the atoms do not move around. The whole idea of convection is that 'groups' of things move about. In the case of heat convection these moving groups take or bring their heat with them.
A photon produced in the core of the Sun can take an extremely long time to reach the surface, often estimated to be anywhere from thousands to millions of years. This lengthy duration is due to the dense and turbulent nature of the Sun's interior, where photons undergo countless scattering events before they can finally escape into space. However, once a photon reaches the surface, it travels to Earth in about 8 minutes and 20 seconds at the speed of light.
The time it takes for magma to complete a circular convection flow can vary depending on factors such as temperature, viscosity, and the size of the magma chamber. In general, this process can take anywhere from days to centuries.
Light travels 300 000km/s. That is 3x1010cm/s. So it takes 3,(3)x10-11 seconds or if you prefer, 0.0000000000(3)s.
Whole mantle convection can take millions to billions of years to complete a full cycle. The process involves the slow movement of mantle material due to heat from the Earth's core and the cooling of the upper mantle and crust. Depending on the specific conditions and dynamics of the mantle, the cycle's duration can vary significantly. Generally, estimates suggest that a complete mantle convection cycle might take around 100 million to 200 million years.
A photon of light takes about a million years to escape from the Sun. This is because, as the photon makes a random move, it will hit another photon, and move off in another direction. Because of the density, and the amount of other photons, it can take this amount of time to reach the surface of the Sun. Once free of the Sun, the photon is unaffected and can "stream" out at the speed of light to wherever it wants to go.
It takes about 8 minutes and 20 seconds for a photon to travel from the surface of the sun to Earth.
Materials that allow convection to take place are usually fluids or gases, as they can easily move and transfer heat through the process of convection. Solids can also participate in convection to a lesser extent, especially if they have some degree of flexibility or ability to transmit heat through them. In general, materials that can move or flow are more likely to enable convection.
Because the atoms do not move around. The whole idea of convection is that 'groups' of things move about. In the case of heat convection these moving groups take or bring their heat with them.
An example of conduction is when a metal spoon in a hot drink gets hot at the handle end. An example of convection is when warmer air rises, causing cooler air to move in and take its place, creating a convection current.
A photon produced in the core of the Sun can take an extremely long time to reach the surface, often estimated to be anywhere from thousands to millions of years. This lengthy duration is due to the dense and turbulent nature of the Sun's interior, where photons undergo countless scattering events before they can finally escape into space. However, once a photon reaches the surface, it travels to Earth in about 8 minutes and 20 seconds at the speed of light.
Convection
Photons keep getting absorbed by other particle and then released in a completely random direction. This make the photon take a long time to finally pop out of the sun.
month
It can take thousands to millions of years for a photon to travel from the core of the Sun to its surface due to the dense interactions and scattering of photons within the Sun's outer layers. Once a photon reaches the surface, it takes only about 8 minutes to travel to Earth.
yes
convection takas place wen iron piece is heated