Yes,
Hence bouyancy.
Yes, all fluids exert pressure. Pressure is a fundamental property of fluids and is caused by the molecules in a fluid colliding with the walls of the container or object they are in contact with.
There is no pressure against a vacuum since a vacuum is defined as a space devoid of matter and therefore no gas molecules to exert pressure.
Light does not have mass, so it does not exert a force by itself. However, light can carry momentum and exert a force on objects it interacts with, such as when light is reflected or absorbed by a surface. This is known as radiation pressure.
Liquids such as water and gases such as air exert a buoyant force on objects placed in them. This force is a result of the pressure difference between the top and bottom of the object, pushing it upward.
Air exerts a push or pull through the force of air pressure. When air molecules collide with a surface, they create a force that can push or pull objects. This is how phenomena like wind and air resistance occur.
The atmosphere exerts pressure on various objects on the earth's surface. Air pressure is generally caused by the collision of the gas molecules with one another.
The atmosphere exerts pressure on all objects and surfaces within it, including buildings, people, and the Earth's surface. This pressure is a result of the weight of air molecules above pressing down on objects below.
a. moving molecules that exert forces.
Yes, all fluids exert pressure. Pressure is a fundamental property of fluids and is caused by the molecules in a fluid colliding with the walls of the container or object they are in contact with.
As the molecules in the gas move, they collide with the container they are within. These collisions is what we call pressure.
It is because of the continuous bombardment of liquid molecules on the wall.
The constant motion of air molecules causes air pressure to exert a force on surrounding objects, creating wind when air moves in response to pressure differences. This motion also contributes to the transportation of heat and moisture in the atmosphere, leading to weather patterns and climate changes.
There is no pressure against a vacuum since a vacuum is defined as a space devoid of matter and therefore no gas molecules to exert pressure.
Light does not have mass, so it does not exert a force by itself. However, light can carry momentum and exert a force on objects it interacts with, such as when light is reflected or absorbed by a surface. This is known as radiation pressure.
Gas molecules with higher kinetic energy tend to exert more force on their container walls, increasing the pressure. Conversely, gas molecules with lower kinetic energy exert less force and thus lower the pressure. So, gas molecules with more kinetic energy do not lower pressure; they increase it.
Liquids such as water and gases such as air exert a buoyant force on objects placed in them. This force is a result of the pressure difference between the top and bottom of the object, pushing it upward.
True. Both liquids and gases exert a buoyant force on objects placed in them due to the difference in pressure at different depths. This force is what causes objects to float or sink in a fluid.