An engineer trying to determine whether or not her crane can lift loads (at the position shown). Her crane has a 5K chassis and 45K counterweight. Assume all other parts of the crane have negligible weight.Answer all questions relative to the rotation point.

How much torque is caused by the chassis?

How much torque is caused by the counterweight?

How heavy of a load would "barely balance" the crane?

 

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On an Educational website, the diagram can be described as follows: --- **Mobile Crane Mechanics and Load Management** The image depicts a side view of a mobile crane in operation. The crane is labeled with key components to help understand its mechanism and load management system. The diagram is designed on a grid where each grid square represents a distance of 5 feet. Here's a detailed description of the illustrated elements: 1. **Load**: This is the weight that the crane is lifting. It's suspended from the crane's arm by a system of cables and pulleys. 2. **Crane Arm (Boom)**: This triangular lattice structure extends outwards and upwards from the crane's chassis. It supports the load at its end. 3. **Barnhart**: The labeled section next to the driver's cabin represents the operating company or crane manufacturer. This area also includes the crane's operator controls. 4. **Counter Weight**: This is positioned at the opposite end of the crane arm/boom. Counterweights are essential for balancing the load being lifted and preventing the crane from tipping over. 5. **Chassis**: This refers to the base framework of the mobile crane, housing the crane’s wheels and providing support for the crane arm and counterweight. The crane is set up on a grid to clearly indicate the measurement of distance and scale. The spacing between the grid lines is 5 feet, which helps visualize the size and reach of the crane components. Understanding these elements is fundamental in studying the operational mechanics of a crane and its load management systems. --- This explanation can serve as an educational tool for those learning about the structure and functionality of mobile cranes.