I don't know pay more attention to your teacher
You're looking for "air pressure", but you haven't described it correctly.The pressure is not the force pushing on the surface.It's the (force pushing on the surface) divided by the (area of the surface).
Yes resistance would be a push force.
It is a ficticious force, which seems to push things outward from the center, when objects move in circular movement - or, more generally, in a curve.
If you use the larger side of the push pin, you are spreading the force out, therefore making the pressure lower. However, if you use the smaller part of the push pin, the force is concentrated on one spot, making the pressure much, much higher, because if a you apply force on a smaller surface area, you get a larger pressure.
It is a ficticious force, which seems to push things outward from the center, when objects move in circular movement - or, more generally, in a curve.
The gas's pressure is defined as the outward push against the walls of its container, though gravity contributes to this somewhat. More importantly, this pressure can cause the gases to condense into liquids if it's high enough.
The gas's pressure is defined as the outward push against the walls of its container, though gravity contributes to this somewhat. More importantly, this pressure can cause the gases to condense into liquids if it's high enough.
The gas's pressure is defined as the outward push against the walls of its container, though gravity contributes to this somewhat. More importantly, this pressure can cause the gases to condense into liquids if it's high enough.
The gas's pressure is defined as the outward push against the walls of its container, though gravity contributes to this somewhat. More importantly, this pressure can cause the gases to condense into liquids if it's high enough.
The gas's pressure is defined as the outward push against the walls of its container, though gravity contributes to this somewhat. More importantly, this pressure can cause the gases to condense into liquids if it's high enough.
The gas's pressure is defined as the outward push against the walls of its container, though gravity contributes to this somewhat. More importantly, this pressure can cause the gases to condense into liquids if it's high enough.
The gas's pressure is defined as the outward push against the walls of its container, though gravity contributes to this somewhat. More importantly, this pressure can cause the gases to condense into liquids if it's high enough.
The gas's pressure is defined as the outward push against the walls of its container, though gravity contributes to this somewhat. More importantly, this pressure can cause the gases to condense into liquids if it's high enough.
The gas's pressure is defined as the outward push against the walls of its container, though gravity contributes to this somewhat. More importantly, this pressure can cause the gases to condense into liquids if it's high enough.
a force is a push or pull and pressure is a a push
The air is always pushing down on you, just slightly more under high pressure. You don't notice it because we've evolved to counter this downward force with an outward force of our own.
You're looking for "air pressure", but you haven't described it correctly.The pressure is not the force pushing on the surface.It's the (force pushing on the surface) divided by the (area of the surface).