Rank, from largest to smallest, the mass mm needed to keep the board from tipping over.

Transcribed Image Text:

The image displays five different scenarios involving a red block of mass \( m \) and orange blocks of varying masses positioned on beams. Below is a detailed description of each setup: 1. **Scenario A:** - A red block of mass \( m \) is placed 1.5 meters from the left end of the beam. - An orange block weighing 100 kg is positioned 1.5 meters from the red block. 2. **Scenario B:** - A red block of mass \( m \) is 0.75 meters from the left edge. - A 100 kg orange block is placed 0.75 meters to the right of the red block. 3. **Scenario C:** - A red block of mass \( m \) is located 1.5 meters from the left end. - A 100 kg orange block is situated 0.75 meters to the right of the red block. 4. **Scenario D:** - A red block of mass \( m \) is set 1.5 meters from the left. - An orange block weighing 200 kg is positioned 1.5 meters further to the right. 5. **Scenario E:** - A red block of mass \( m \) is placed 1.5 meters from the start of the beam. - A 100 kg orange block is located 0.5 meters to the right of the red block. Each scenario depicts blocks on a beam to illustrate different positioning and weight distribution, possibly for a physics problem on balance or torque.