Because the vapor is less dense than the air in which it's floating, so the buoyant
force on it is stronger than its weight.
Exactly the same way that a bar of soap or a rubber ducky moves upward through
a bathtub full of water and against the gravity
No, gravity pulls objects downward towards the center of the Earth. This is why objects fall towards the ground when they are released. Objects need an external force, such as a rocket or a lifting force, to move them upward against gravity.
The force that causes you to move upward when you jump into the air is the normal force exerted by the ground on your feet. This force opposes the force of gravity acting on your body, allowing you to overcome gravity and move upward.
Capillary action is the force that works against gravity as water infiltrates the soil and moves underground. This process involves the movement of water through tiny spaces in the soil due to cohesion and adhesion forces, allowing water to move upward against the force of gravity.
When a basketball is thrown upward, it is acted upon by gravity, which pulls it back down towards the ground. As it moves upward, its velocity decreases until it reaches its peak height and momentarily stops, then gravity causes it to accelerate back downward due to the force of gravity.
Capillary action, which is the result of adhesive forces between water and the walls of narrow tubes, helps move water up to plants through their roots and stems. This force allows water to defy gravity and be pulled upward against the force of gravity.
gravity retard
No, gravity pulls objects downward towards the center of the Earth. This is why objects fall towards the ground when they are released. Objects need an external force, such as a rocket or a lifting force, to move them upward against gravity.
because if gravity
The force that causes you to move upward when you jump into the air is the normal force exerted by the ground on your feet. This force opposes the force of gravity acting on your body, allowing you to overcome gravity and move upward.
downward
Fluid moves against gravity in an osmometer due to osmosis, the process by which water moves across a semi-permeable membrane from a region of lower solute concentration to a region of higher solute concentration. This movement of water creates a pressure that pushes the fluid upward, against gravity.
Capillary action is the force that works against gravity as water infiltrates the soil and moves underground. This process involves the movement of water through tiny spaces in the soil due to cohesion and adhesion forces, allowing water to move upward against the force of gravity.
The force of gravity makes the ball move downward. To move it upward, you need to supply enough force to compensate for this (to stop the downward motion) plus a little extra (to cause the ball to move upward).
capillary
By xylem and phloem and by gravity it goes upward
When a basketball is thrown upward, it is acted upon by gravity, which pulls it back down towards the ground. As it moves upward, its velocity decreases until it reaches its peak height and momentarily stops, then gravity causes it to accelerate back downward due to the force of gravity.
Capillary action, which is the result of adhesive forces between water and the walls of narrow tubes, helps move water up to plants through their roots and stems. This force allows water to defy gravity and be pulled upward against the force of gravity.