The surface of water or mercury in a container is curved due to the effects of surface tension and the interactions between the liquid and the container's walls. In the case of water, adhesion to the container can cause the liquid to rise slightly at the edges, creating a concave meniscus. Conversely, mercury, which has a stronger cohesive force than adhesive force, forms a convex meniscus, curving away from the container walls. This curvature minimizes the surface area of the liquid, balancing the forces acting upon it.
surface area of triangle times the width/height of container.
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The plot area walls and chart area in Excel can easily be customized. This can be done by applying predefined shape styles to the area. You can also apply shape outlines and shape fills.
Area = (length) times (width)Length = (area) divided by (width)Width = (area) divided by (length)
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.
The pressure of a gas is the force of its outward push divided by the area over which the force is applied. This is known as the definition of pressure (P = F/A), where P is pressure, F is force, and A is area.
If the volume of a container of gas is reduced, the pressure inside the container will increase. This is because reducing the volume decreases the amount of space the gas molecules have to move around, leading to them colliding more frequently with the walls of the container, thus increasing the pressure.
'This is because the air particles are bumpinginto each other and the walls. When this happens it causes pressure on the walls because of the speed the air particles are moving