what are the x- direction and the y-direction equations for body diagram below using Newton's Second law equation a=F/m. **Free-body Diagram Explanation**In the free-body diagram, several forces are acting on an object. The diagram is represented with an arrow for each force, and the forces are labeled as follows:- **n** (normal force): Acting upwards, perpendicular to the surface.- **T** (tension or applied force): Acting to the right, parallel to the surface.- **f_k** (kinetic friction): Acting to the left, opposing the direction of motion.- **mg = w** (weight): Acting downwards due to gravity.**Equations in Each Direction**- **x-direction equation**: The net force equation that accounts for forces acting horizontally (left and right). - **y-direction equation**: The net force equation that accounts for forces acting vertically (up and down).These equations are not filled out in the table, and they would typically be used to solve for unknown forces or to analyze the motion of the object described in the diagram.

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what are the x- direction and the y-direction equations for body diagram below using Newton's Second law equation a=F/m.

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Question

what are the x- direction and the y-direction equations for body diagram below using Newton's Second law equation a=F/m.

**Free-body Diagram Explanation**

In the free-body diagram, several forces are acting on an object. The diagram is represented with an arrow for each force, and the forces are labeled as follows:

- **n** (normal force): Acting upwards, perpendicular to the surface.
- **T** (tension or applied force): Acting to the right, parallel to the surface.
- **f_k** (kinetic friction): Acting to the left, opposing the direction of motion.
- **mg = w** (weight): Acting downwards due to gravity.

**Equations in Each Direction**

- **x-direction equation**: The net force equation that accounts for forces acting horizontally (left and right).

- **y-direction equation**: The net force equation that accounts for forces acting vertically (up and down).

These equations are not filled out in the table, and they would typically be used to solve for unknown forces or to analyze the motion of the object described in the diagram.

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