A block 4-kg mass m located 7.0 m above the ground slid down on smooth inclind surface (35°)

Transcribed Image Text:

### Physics Problem: Motion of a Block on an Inclined Plane **Problem Statement:** A block with mass \( m = 4 \, \text{kg} \) is located 7.0 meters above the ground and slides down a smooth inclined surface with an angle of \( 35^\circ \). a. What is the speed of the block when it reaches the bottom? b. How far does the block move on the inclined smooth surface with an angle of \( 15^\circ \)? **Diagram Explanation:** The diagram shows a block on an inclined plane, illustrating a two-stage motion: 1. **Stage 1: Inclined Descent** - The block starts from a height \( h \) and slides down a \( 35^\circ \) incline. - The distance it travels along this incline is denoted as \( x \). 2. **Stage 2: Smooth Transition** - After descending the first incline, the block moves horizontally and then transitions onto another smooth incline angled at \( 15^\circ \). - The distance traveled on this second incline is represented as \( d \). The illustration provides a visual representation of the block's path from the initial position to the final endpoint. The surface is smooth, indicating no frictional forces are acting on the block.