Yes true
The downward force exerted on an object is caused by gravity (from the Earth). This force is called weight and can be calculated by multiplying the mass of the object by the acceleration due to gravity on Earth (about 9.8).
Balanced, or in equilibrium
Both boxes should have an equal amount of force.
the force exerted by a 3 kg ball on earth is weight force, whose direction is downward, and magnitude is 29.4 newton.
Tension is a pulling force that is exerted by solids.
Equilibrium in chemistry is the point or position at which the rate of the forward reaction is equal to the rate of the reverse reaction. Whatever concentrations exist at this point are referred to as equilibrium concentrations.
Rest position or equilibrium position occurs when all the forces (gravity, the wind, friction etc) exerted on an object are equal.For example, a rolling ball is not in equilibrium because one or more forces (gravity or the force you used to initially move the ball) are greater in strength than the friction (both between the ball and the surface it is rolling on and between the ball and the air).The ball will stop rolling when the force causing it to move 'forwards' is overcome by frictional force. The ball will then be in equilibrium, or at rest.
The downward force exerted on an object is caused by gravity (from the Earth). This force is called weight and can be calculated by multiplying the mass of the object by the acceleration due to gravity on Earth (about 9.8).
Balanced, or in equilibrium
buoyancy
Both boxes should have an equal amount of force.
the force exerted by a 3 kg ball on earth is weight force, whose direction is downward, and magnitude is 29.4 newton.
F = - k x In this equation, x is the distance that the spring has been stretched or compressed away from its equilibrium position F is the restoring force exerted by the spring. k is the spring constant.
Vapour pressure ; yes
Kinetic vapor pressure which is defined as the pressure exerted when a solid or liquid is at equilibrium with its own vapor.
A liquid's buoyancy is determined by its specific gravity (density).
A spring force scale measures the downward pull on a spring exerted by a force, usually gravity acting on a weight.