the force of nature. e.g. when looking at concentration gradients it is nature that urges equilibrium on.
If the stick is just sitting there, it doesn't exert any force at all. If you're swinging the stick, the shape of the stick won't matter much; the force will be determined by the speed and mass of the stick. If you are poking with the stick, then the FORCE will be the same whether it is blunt or pointed - but a pointed stick will concentrate the force into a smaller AREA, so the force per area will be a lot higher with a sharp stick than with a blunt one.
Pressure Gradient Force Coriolis Force Friction Force Pressure Gradient Force Coriolis Force Friction Force
that depends on the force exerted by the stick on the puck. they are directly related, in other words F(puck to stick)=F(stick to puck)
Electrostatic force
the force of nature. e.g. when looking at concentration gradients it is nature that urges equilibrium on.
If the stick is just sitting there, it doesn't exert any force at all. If you're swinging the stick, the shape of the stick won't matter much; the force will be determined by the speed and mass of the stick. If you are poking with the stick, then the FORCE will be the same whether it is blunt or pointed - but a pointed stick will concentrate the force into a smaller AREA, so the force per area will be a lot higher with a sharp stick than with a blunt one.
Pressure Gradient Force Coriolis Force Friction Force Pressure Gradient Force Coriolis Force Friction Force
Concentration gradients is a solutes. This is used in the body.
that depends on the force exerted by the stick on the puck. they are directly related, in other words F(puck to stick)=F(stick to puck)
Electrostatic force
Hockey stick
press left analog stick and right analog stick
Purple gradients towards blue. Magenta gradients towards red.
Passive transports such as diffusion and osmosis move down their concentration gradients.
It is a difference in pressure
when you stick a float in the water