Yes. It's called "drag" and "friction".
Yes, pressure changes can affect the velocity of a fluid. In a closed system like a pipe, an increase in pressure typically increases the fluid velocity due to conservation of mass. Similarly, a decrease in pressure can result in an increase in fluid velocity to maintain mass flow rate.
Gage pressure is the pressure measured relative to atmospheric pressure, while absolute pressure is the total pressure including atmospheric pressure. Gage pressure only considers the pressure above atmospheric pressure, while absolute pressure includes atmospheric pressure as well. This affects pressure measurements in a system because gage pressure readings will fluctuate with changes in atmospheric pressure, while absolute pressure readings will remain constant regardless of atmospheric pressure changes.
The factors that affect terminal velocity in a fluid include the weight and size of the object, the density and viscosity of the fluid, and the shape of the object. Objects with a larger surface area or lower weight will reach terminal velocity faster, while denser fluids or more streamlined objects will increase terminal velocity.
True
Two forces that can affect an object's velocity are acceleration and friction. Acceleration can increase or decrease the velocity of an object, while friction can slow down the object's motion by opposing its direction of movement.
Yes
On a windy day atmospheric pressure decreases because the higher the wind velocity, the lower the air pressure, or atmospheric pressure. This is how chimneys work, the air that moves above the chimney causes low air pressure because of the high wind velocity compared the velocity of the air inside a house. The air inside the house goes towards the low air pressure and takes the smoke with it.
Atmospheric pressure systems are made of air.
Atmospheric pressure systems are made of air.
Centripetal forces can.
It doesn't.
I dont do science i am a more pe type
Yes, pressure changes can affect the velocity of a fluid. In a closed system like a pipe, an increase in pressure typically increases the fluid velocity due to conservation of mass. Similarly, a decrease in pressure can result in an increase in fluid velocity to maintain mass flow rate.
Gage pressure is the pressure measured relative to atmospheric pressure, while absolute pressure is the total pressure including atmospheric pressure. Gage pressure only considers the pressure above atmospheric pressure, while absolute pressure includes atmospheric pressure as well. This affects pressure measurements in a system because gage pressure readings will fluctuate with changes in atmospheric pressure, while absolute pressure readings will remain constant regardless of atmospheric pressure changes.
Yes. Tornadoes themselves are small, intense centers of low pressure.
Temperature and altitude are two qualities that affect atmospheric pressure. As temperature increases, air molecules move faster and create higher pressure. At higher altitudes, there are fewer air molecules above, leading to lower pressure.
High altitude affects pressure cooking by reducing the atmospheric pressure, which can lead to longer cooking times and potentially affect the outcome of the dish.