Name: Dinámica-Ejemplo 13-Determinar el coeficiente de fricción dinámico.
Uploaded: 2023-11-03T19:25:04.000Z
Duration: 24 min 30 s
Description: Sobre un bloque de 40N se aplica una fuerza cuya magnitud es de 15N formando un ángulo de 25° con la horizontal, con se ve en la figura. Si el bloque adquiere una aceleración cuya magnitud es de 1.5m/s², calcular el coeficiente de fricción dinámico.

Dinámica-Ejemplo 13-Determinar el coeficiente de fricción dinámico.

Dynamic Friction Coefficient Calculation

Introduction to the Problem

The problem involves a block weighing 40 N subjected to a force of 15 N at an angle of 25 degrees with the horizontal, resulting in an acceleration of 1.5 m/s².

Steps to Determine Dynamic Friction Coefficient

The goal is to calculate the dynamic friction coefficient using a free body diagram (FBD). A Cartesian plane is established for analysis.

Forces Acting on the Block

Key forces include:

Applied force (15 N at 25 degrees).

Weight of the block acting downward (40 N).

Normal force acting upward.

Frictional force opposing motion.

Force Components and Equations

The applied force is decomposed into two components:

F_y = F cdot sin(25^circ)

F_x = F cdot cos(25^circ)

Since there’s no vertical movement, the sum of forces in the y-direction equals zero.

Analyzing Forces in Y-Direction

The equation for forces in the y-direction includes:

Normal force (positive).

Vertical component of applied force ( +F_y ).

Weight ( -W ) acting downwards.

This leads to:

[ N + F_y - W = 0 ]

Solving for Normal Force

Rearranging gives:

[ N = W - F_y ]

Substituting values results in calculating F_y = 6.34 N, leading to a normal force N = 33.66 N.

Calculating Frictional Force

To find frictional force, apply Newton's second law in x-direction where acceleration exists:

[ F_net = m cdot a]

Mass is calculated as:

[ m = W/g = 40N/9.8m/s^2 ≈4.08 kg]

Forces in X-Direction Analysis

In x-direction, we have:

[ F_x (positive direction) – f_friction (negative direction)= ma]

Calculating the Coefficient of Friction

Steps to Calculate Friction Force

The initial calculation involves determining the force using the equation 15 times cos(25^circ), resulting in a friction force of approximately 13.59 N.

A secondary calculation is performed by multiplying 4.08 times 1.5, yielding a value of 6.12 N, which is then subtracted from the previous result.

The final friction force calculated is 7.47 N, representing the total frictional force acting on the object.

Determining the Coefficient of Friction

To find the coefficient of friction, it is defined as the ratio of frictional force to normal force: textCoefficient = fractextFriction ForcetextNormal Force .

Substituting values into this formula gives 7.47/33.66 , leading to further calculations for accuracy.

Resulting Coefficient Value

The dynamic coefficient of friction calculated from these values is approximately 0.22.

It’s noted that this coefficient does not have any units associated with it, indicating a pure ratio result.