hurricanes north of the equtor spin counter clockwise and south is clockwise
Tropical cyclones that occur south of the equator spin clockwise, but they are not called hurricanes in the southern hemisphere.
In the Northern Hemisphere, hurricanes spin counterclockwise due to the Coriolis effect. In the Southern Hemisphere, hurricanes spin clockwise for the same reason.
Sort of. Pulling air inward and the formation of a circulation are necessary for a hurricane to develop, but they are also consequences of the low pressure area that is the precursor of a hurricane, which is powered by warm, moist air.
Yes. Cyclones in the northern hemisphere spin counterclockwise while those in the southern hemisphere spin clockwise.
In a radiometer, light energy is converted into rotational kinetic energy. The light causes the vanes inside the radiometer to spin due to the pressure exerted by the photons on the reflective surfaces of the vanes.
In a radiometer, light energy is absorbed by the vanes, causing them to heat up. This creates a temperature difference between the inside and outside of the vanes, leading to a pressure difference that causes them to spin. Absorption of light energy is crucial for the radiometer to convert light into mechanical energy and demonstrate its functionality.
A radiometer is powered by light energy. When light is absorbed by the vanes of the radiometer, it creates a temperature difference that causes the vanes to rotate. This rotation is a demonstration of the conversion of light energy into mechanical energy.
The shiny side of the vanes reflects the heat from the light, while the black side absorbs it. As it absorbs the light and heat, it also heats the air molecules near it. This cause the air molecules to exert a tiny bit of pressure on the flags, enough to make them spin.
In a radiometer, light energy is converted into kinetic energy. When light is absorbed by the dark side of the vanes, it causes the molecules inside to heat up and move faster, resulting in the rotation of the vanes.
The light source heats the radiometer's vanes, causing them to rotate due to the pressure difference on either side of the vanes. The intensity and angle of the light can affect the speed and direction of rotation. A stronger light source can lead to faster rotation, while different wavelengths of light may also impact the radiometer's movement.
you have a force field that the first vane you can tell it
The shiny side of the vanes reflects the heat from the light, while the black side absorbs it. As it absorbs the light and heat, it also heats the air molecules near it. This cause the air molecules to exert a tiny bit of pressure on the flags, enough to make them spin.
A radiometer does not actually generate energy. It utilizes the energy from light or heat to cause the vanes within it to rotate. The rotation occurs due to the transfer of momentum from photons or heated gas molecules to the vanes, but this rotation does not produce usable energy.
A radiometer is an instrument that measures the intensity of electromagnetic radiation, typically in the form of light or heat. It often consists of a set of vanes or blades that rotate in response to temperature differences caused by radiation absorption. The motion of the vanes provides a quantitative measure of the radiation's intensity, which can be used in various applications such as scientific research, environmental monitoring, and material testing.
by looking at it
Most tornadoes in the northern hemisphere spin counter clockwise while most in the southern hemisphere spin clockwise.