Problem 1: A block of mass 10 kg is being pulled in a straight line alone the ground by a 60 N force directed 45 degrees above the horizontal. The kinetic coefficient of friction between the ground and the block is uK = 0.20. The box is pulled a distance of 6.0 meters and starts from rest. Find the speed of the box at the 6 meters. You must use the work energy-theorem and material from chapter 6

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**Problem 1:** A block of mass 10 kg is being pulled in a straight line along the ground by a 60 N force directed 45 degrees above the horizontal. The kinetic coefficient of friction between the ground and the block is \( \mu_K = 0.20 \). The box is pulled a distance of 6.0 meters and starts from rest. Find the speed of the box at the 6 meters. *You must use the work-energy theorem and material from chapter 6.* --- **Diagram Explanation:** The image shows a block on a flat surface being pulled by a force \( \mathbf{F} \). The force is applied at an angle \( \theta = 45^\circ \) above the horizontal. The illustration includes two stages of the block's movement to indicate the start and end of the 6-meter distance. - The block is shown as a simple rectangle. - The force \( \mathbf{F} \) is represented by an arrow pointing upward at a 45-degree angle. - The ground is a flat line indicating the surface along which the block is being pulled. This setup demonstrates the application of external force, friction, and the effect of these on the block's motion over a distance.