if it's cold,mit'll be like cold n' all. n if itz Warm, use ur imagination. -omg itz rob
pressure = 0.002558 times velocity squared where velocity is miles per hour and pressure is pounds per square foot for example a wind of 75 mph produces a pressure of 0.002558x75x75 = 14 .39 pounds per square foot since there are 144 sq in in one sq ft that is 14.39/144 = 0.1 pounds per square inch In meteorological terms, differences in pressure are what drive wind. Air generally moves toward an area of low pressure. However, due to the rotation of the earth it gets deflected in large scale weather patterns. It is deflected to the right in the northern hemisphere and to the left in the southern hemisphere.
Paper airplanes fly because of the velocity and air pressure on either sides of the wings. Air is also pushed to the bottom upward to the plane.
pressure of a strut
Normal atmospheric pressure is abbreviated as atm. But when computing for the amount of total pressure exerted on an object at a specific depth or elevation, including normal atmospheric pressure, then the abbreviation ata is used. It stands for atmospheric pressure absolute.
Pressure gradients drive the movement of surface air. Air flows from areas of high pressure to low pressure, creating winds. The greater the pressure difference, the faster the air movement.
Temperature affects air movement by creating differences in air pressure. Warmer air is less dense and rises, creating a low-pressure area. Cooler air is denser and sinks, creating a high-pressure area. The movement of air from high to low pressure creates wind.
The main force that affects the horizontal movement of air is the pressure gradient force, which drives air from areas of higher pressure to areas of lower pressure. Other factors such as the Coriolis effect (due to Earth's rotation) and friction with the surface can also influence the direction and speed of horizontal air movement. These forces collectively contribute to the complex patterns of wind flow in Earth's atmosphere.
Air pressure itself does not cause a thermal to dissipate. However, changes in air pressure can affect the movement of air molecules and impact the distribution of heat in a thermal system. This can lead to changes in temperature gradients and affect the dissipation of heat.
that the hell who would want to know that
Yes, air pressure is a force that can affect an object. It results from the weight of air pressing down on an object and can impact its movement or behavior.
The main factors that strongly affect the movement of air masses along the Earth's surface are temperature gradients, pressure systems (such as high and low-pressure areas), and the rotation of the Earth (Coriolis effect). Temperature differences drive the movement of air masses, while pressure systems and the Coriolis effect influence the direction and speed of their movement.
Changes in air movement, air pressure, and humidity are primarily influenced by temperature differences in the atmosphere. As warm air rises, it creates areas of low pressure which then leads to the movement of air to balance out the pressure. This movement of air also influences humidity levels as air masses with different temperatures and moisture content interact.
Differences in air temperatures create variations in air density and pressure, leading to the formation of high and low pressure systems. Air flows from high pressure to low pressure areas, generating wind patterns and air movement. Warm air rises, creating convection currents, while cold air sinks, contributing to circulation patterns in the atmosphere.
Air
Temperature does not need to be considered when determining air pressure. Air pressure is mainly affected by altitude and atmospheric conditions, such as humidity and weather systems. Temperature can affect air pressure indirectly by influencing density and vertical movement of air masses.
The movement of the flame in response to sound is due to acoustic waves causing fluctuations in air pressure. These pressure changes affect the flow of air around the flame, leading to its movement. This phenomenon is known as the "singing flame."