A 5.40-kg block is set into motion up an inclined plane with an initial speed of v = 8.60 m/s (see figure below). The block comes to rest after traveling d = 3.00 m along the plane, which is inclined at an angle of 8 = 30.0° to the horizontal. (a) For this motion, determine the change in the block's kinetic energy. (b) For this motion, determine the change in potential energy of the block-Earth system. (c) Determine the friction force exerted on the block (assumed to be constant).

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**Title: Energy and Friction on an Inclined Plane**

**Scenario:**

A 5.40-kg block is set into motion up an inclined plane with an initial speed of \( v_i = 8.60 \, \text{m/s} \) (see figure below). The block comes to rest after traveling \( d = 3.00 \, \text{m} \) along the plane, which is inclined at an angle of \( \theta = 30.0^\circ \) to the horizontal.

**Diagram Explanation:**

- The diagram shows a block on an inclined plane.
- The initial velocity \( v_i \) is directed up the plane.
- The distance \( d \) is along the plane.
- The angle of incline \( \theta \) is marked between the plane and the horizontal line.

**Questions:**

(a) For this motion, determine the change in the block's kinetic energy.  
\[ \text{Answer:} \quad \boxed{\phantom{000}} \, \text{J} \]

(b) For this motion, determine the change in potential energy of the block–Earth system.  
\[ \text{Answer:} \quad \boxed{\phantom{000}} \, \text{J} \]

(c) Determine the friction force exerted on the block (assumed to be constant).  
\[ \text{Answer:} \quad \boxed{\phantom{000}} \, \text{N} \]

(d) What is the coefficient of kinetic friction?  
\[ \text{Answer:} \quad \boxed{\phantom{000}} \]
Transcribed Image Text:**Title: Energy and Friction on an Inclined Plane** **Scenario:** A 5.40-kg block is set into motion up an inclined plane with an initial speed of \( v_i = 8.60 \, \text{m/s} \) (see figure below). The block comes to rest after traveling \( d = 3.00 \, \text{m} \) along the plane, which is inclined at an angle of \( \theta = 30.0^\circ \) to the horizontal. **Diagram Explanation:** - The diagram shows a block on an inclined plane. - The initial velocity \( v_i \) is directed up the plane. - The distance \( d \) is along the plane. - The angle of incline \( \theta \) is marked between the plane and the horizontal line. **Questions:** (a) For this motion, determine the change in the block's kinetic energy. \[ \text{Answer:} \quad \boxed{\phantom{000}} \, \text{J} \] (b) For this motion, determine the change in potential energy of the block–Earth system. \[ \text{Answer:} \quad \boxed{\phantom{000}} \, \text{J} \] (c) Determine the friction force exerted on the block (assumed to be constant). \[ \text{Answer:} \quad \boxed{\phantom{000}} \, \text{N} \] (d) What is the coefficient of kinetic friction? \[ \text{Answer:} \quad \boxed{\phantom{000}} \]
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