We're building a block context To check the effect of friction on the movement of a load, this load is made to rise on an inclined plane using an external force. We are looking for the speed when the load reaches the top of the plane. Information The mass of the charge is known. The load is initially at rest. The external force is constant and known and is applied parallel to the plane. The angle of inclination of the plane is known. There is friction between the block and the plane: the kinetic coefficient of friction is known. The magnitude of the displacement is known. Schematization Represents the initial and final states of the system, identifying an upward y axis for the charge. Modelization Creates a model for the velocity module after it is moved, based on known parameters only. Then test your model with the following values: Mass of the load: 10.2 kg The magnitude of applied force: 360 N Displacement: 2.3 m Plane tilt angle (theta): 15 degrees Kinetic coefficient of friction: 0.29

We're building a block context To check the effect of friction on the movement of a load, this load is made to rise on an inclined plane using an external force. We are looking for the speed when the load reaches the top of the plane. Information The mass of the charge is known. The load is initially at rest. The external force is constant and known and is applied parallel to the plane. The angle of inclination of the plane is known. There is friction between the block and the plane: the kinetic coefficient of friction is known. The magnitude of the displacement is known. Schematization Represents the initial and final states of the system, identifying an upward y axis for the charge. Modelization Creates a model for the velocity module after it is moved, based on known parameters only. Then test your model with the following values: Mass of the load: 10.2 kg The magnitude of applied force: 360 N Displacement: 2.3 m Plane tilt angle (theta): 15 degrees Kinetic coefficient of friction: 0.29

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Question

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We're building a block
context

To check the effect of friction on the movement of a load, this load is made to rise on an inclined plane using an external force. We are looking for the speed when the load reaches the top of the plane.

Information

The mass of the charge is known.
The load is initially at rest.
The external force is constant and known and is applied parallel to the plane.
The angle of inclination of the plane is known.
There is friction between the block and the plane: the kinetic coefficient of friction is known.
The magnitude of the displacement is known.

Schematization

Represents the initial and final states of the system, identifying an upward y axis for the charge.

Modelization

Creates a model for the velocity module after it is moved, based on known parameters only.

Then test your model with the following values:

Mass of the load: 10.2 kg

The magnitude of applied force: 360 N

Displacement: 2.3 m

Plane tilt angle (theta): 15 degrees

Kinetic coefficient of friction: 0.29