6.142 A locking C-clamp is used to clamp two pieces of -in. steel plate. Determine the magnitude of the gripping forces produced when two 30-lb forces are applied as shown. -2.6 in.- -1.9 in. 1.3 in.-| | 30 lb BO 0.85 in. D 0.3 in. -2.6 in.- 0.8 in. 30 lb Fig. P6.142

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**Title: Analyzing the Gripping Forces in a Locking C-Clamp** **Introduction:** This educational resource examines the forces involved when using a locking C-clamp to secure two pieces of 1/4-inch steel plate. The task is to determine the magnitude of the gripping forces produced when two 30-pound forces are applied. **Diagram Description:** The diagram illustrates a side view of a locking C-clamp. Key points and dimensions are detailed below: 1. **Components:** - The C-clamp is shown clamping two steel plates. - A screw mechanism is present to adjust the clamping. 2. **Measurements:** - The distance from the pivot point (B) to the center of the applied force (A) is 1.3 inches. - Length from the pivot (B) to the handle (D) is 2.6 inches. - The handle extensions measure 0.85 inches and 0.3 inches on either side of the pivot (C). - The distance from the pivot point (B) to the left-hand side of the clamp is 1.9 inches. 3. **Forces:** - Two opposing 30 lb forces are applied vertically at the screw's handle. **Analysis Objective:** The goal is to determine the gripping forces created by the clamp mechanism due to the application of the external forces on the handles. Using principles of static equilibrium and moments, one can solve for the internal forces experienced at the clamping site. **Conclusion:** This exercise provides an opportunity to apply physical principles in determining the internal gripping forces of a mechanical device, highlighting the balance of forces and moments essential in engineering analysis.