Want this question answered?
weight ,roughness of the surface and applied force
7 N at the earth's surface equals 0.714kg
He applied a force to the box and it moved. Force applied on it equals to the weight. As he lifts the point of application of the force gets displaced. Hence work is said to be done.
Gravity on the plane itself, the weight of any occupants (force of gravity on occupants), and any force applied by weather influences such as wind.
When a solid body is totally immersed in a fluid, the upthrust is equal to the weight of fluid displaced. This weight is the volume of the solid body times the density of the fluid. Fluids of different densities will produce different upthrusts.Note. If the body is floating on the surface of the fluid, the upthrust does not depend on the density of the fluid. The floating solid will sink into the fluid until the upthrust exactly equals its weight, then it won't sink any deeper. In flotation the buoyancy force always equals the weight of the body, whatever the fluid's density.
The acceleration depends on the net force. So, you must add the forces together as vectors. The result in this case depends in what direction the force is applied.
weight ,roughness of the surface and applied force
There are many forces being applied on the Shard as we speak including Air Resistance if it moves in the wind Gravity Lateral forces from the wind. Its own weight Reaction force from the ground.
7 N at the earth's surface equals 0.714kg
the liquid's own surface tension and weight
You can walk on custard as it behaves more like a solid when weight is applied to its surface. This is because of the inherent qualities of cornflour.
He applied a force to the box and it moved. Force applied on it equals to the weight. As he lifts the point of application of the force gets displaced. Hence work is said to be done.
Gravity on the plane itself, the weight of any occupants (force of gravity on occupants), and any force applied by weather influences such as wind.
When a solid body is totally immersed in a fluid, the upthrust is equal to the weight of fluid displaced. This weight is the volume of the solid body times the density of the fluid. Fluids of different densities will produce different upthrusts.Note. If the body is floating on the surface of the fluid, the upthrust does not depend on the density of the fluid. The floating solid will sink into the fluid until the upthrust exactly equals its weight, then it won't sink any deeper. In flotation the buoyancy force always equals the weight of the body, whatever the fluid's density.
The weight of the bob will determine how long the pendulum swings before coming to rest in the absence of applied forces. The period, or time of 1 oscillation, is determined only by the length of the pendulum.
Mass is not dependent on the forces applied to it. Weight is the force that a mass exerts due to the acceleration of gravity.
That is impossible to answer as paint is applied to a surface and while you have told us the WEIGHT of the steel to be painted, the information we need to know is the surface area of the steel.