The relationship between final temperature of the water and the height from which the mass falls is represented by which of the following graphs? C ature (C)

Practice 

Transcribed Image Text:

### Energy Simulation Explanation This diagram represents a simulation demonstrating the transformation of different types of energy. #### Components: 1. **Temperature Display** - Located on the left, a Vernier interface shows the current temperature, which is 9.62°C. This indicates the heat energy involved in the system. 2. **Mass and Pulley System** - To the right, a mass (270 g) is suspended by a rope over a pulley. This system is crucial for demonstrating gravitational potential energy as the mass is elevated. 3. **Paddle Wheel and Beaker** - As the mass falls, it drives a paddle wheel submerged in the beaker below, transferring energy to the water. The movement of the paddle wheel illustrates kinetic energy. 4. **Energy Transitions** - **Gravitational Potential Energy**: The elevated mass holds potential energy, preparing to be released as it descends. - **Kinetic Energy**: As the mass falls, it converts its potential energy to kinetic energy, rotating the paddle wheel. - **Heat Energy**: The rotation stirs the water, transferring kinetic energy into heat energy, resulting in a temperature increase. 5. **Measurement Ruler** - Positioned beside the mass, it measures the height of the mass related to gravitational potential energy. #### Interactive Elements: - The simulation allows users to observe energy conversion and offers a reset function to bring the mass back to its starting point. - Below the diagram, options exist to identify the types of energy involved: Gravitational Potential Energy, Heat Energy, and Kinetic Energy. This educational tool aids in understanding how energy transforms from one form to another within a physical system.

Transcribed Image Text:

The question asks about the relationship between the final temperature of water and the height from which a mass falls. Several graphs are provided as options: 1. **Graph 1:** Shows a linear increase where the temperature (°C) increases as the height (m) increases. 2. **Graph 2:** Shows a linear decrease where the temperature (°C) decreases as the height (m) increases. 3. **Graph 3:** Displays an upward curve indicating that the temperature (°C) increases at an increasing rate with height (m). 4. **Graph 4:** Displays a downward curve indicating that the temperature (°C) decreases at an increasing rate with height (m).