No
i,m also trying to find this answer by a class 9 standard student but i will not tell u my name
The pressure within the fluid decreases
"Slow motion" effects result when the film is run through the camera at faster than normal speeds: the faster the film is run during shooting, the slower the motion will seem on screen. The logic is easy to understand. When the film runs faster during shooting, more frames per second are used to film the action. Therefore, when the film is viewed, more time is needed for those frames to pass through the projector.
The kinetic energy of the arrow is dependent on its weight and the speed at which it is launched. if you use one bow to fire two different sized arrows, they will both have the SAME kinetic energy. a heavy arrow will shoot slower but hit harder while the light arrow will fly faster but wont impact as hard.
Steep Hill Erodes Faster. The Water Picks Up Speed And More Energy To Wear Away The Earth. Generally, hills will be steep because they are made of resistant rock; whereas gentle hills will have that shape because they are made of rock that is easily eroded. Hence steep hills will not necessarily erode faster than gentle ones. However, if a hill is steep because it has recently been formed by tectonic activity, and it comprises soft rock, it will erode faster than a more gentle hill of the same material.
The convective zone,energy is transferred much faster that it is in the radiative zone.
The convective zone,energy is transferred much faster that it is in the radiative zone.
The convective zone,energy is transferred much faster that it is in the radiative zone.
Thermal energy is transferred from particle to particle through three main mechanisms: conduction, convection, and radiation. In conduction, heat is transferred through direct contact between particles. In convection, heat is transferred through the movement of fluids. In radiation, heat is transferred through electromagnetic waves.
Conduction is the slower compared to the other two convection and radiation. Radiation is nothing but electromagnetic wave which travels at the speed of light. It is the fastest. Convection is due to free movement of liquid molecules so it is also faster compared to the conduction becuase conduction is passing the disturbed information form one molecule to the other. Here disturbance is in the form of vibration.
The heat circulates quickly.
In the Sun, the radiative zone, which lies just outside the core, transfers energy primarily through radiation, where photons are absorbed and re-emitted by particles, taking a long time to move outward. In contrast, the convection zone above it transfers energy through convection, where hot plasma rises to the surface, cools, and then sinks back down to be reheated, creating a more efficient and faster energy transfer process.
A substance gains thermal energy when it absorbs heat from its surroundings. This can happen through various processes, such as conduction, convection, or radiation. The thermal energy causes the particles in the substance to move faster, increasing its temperature.
Radiation is the main transfer made. Conduction across an air space is poor. While convection will take heat up the chimney , instead of in to the room because heat is less dense and it will go up. They are all a way of transferring heat and energy.
it is radiation but is also convection. thanks for the time to read it
Do you mean "transmitted" or "exchanged" instead of "conducted"? Conduction is one of three methods of heat exchange. The other two are convection and radiation. Conduction is heat exchanged when a material directly touches a cooler material. The atoms in the hotter material vibrate against the atoms in the cooler material, causing the cooler atoms to vibrate faster and become warmer. Convection is heat exchanged when a material moves from one place to another. In a home heating system, hot air from the furnace or radiator is blown around the house, and the house is thus heated by convection. Radiation is heat exchanged by electromagnetic radiation. The Earth is heated by light (electromagnetic waves) from the Sun.
Heat can move through objects via conduction, convection, or radiation. In conduction, heat is transferred through direct contact between particles. Convection involves the movement of heat through fluids like liquids or gases. Radiation transfers heat through electromagnetic waves that can travel through a vacuum.