The boom is intended to support two vertical loads F1 and F2. If the cable CB can sustain a maximum load of 50 kN before it fails, determine the following if F1 = 1.5F2: Draw the free-body diagram. (USE METRIC SYSTEM FOR ALL MEASUREMENTS) Critical load F1=? Critical load F2= ? Magnitude of the maximum reaction at pin A: Ax =? Magnitude of the maximum reaction at pin A: Ay=? FBD DIAGRAM Critical load F1 choices 36kN 66kN 46kN 56kN Critical load F2 choices 24kN 44kN 17.33kN 30.67kN Magnitude of maximum reaction at pin A:Ax choices 46.67kN 42.67kN 40.67kN 48.67kN Magnitude of maximum reaction at pin A:Ay choices 30kN 50kN 40kN 20kN
![10 Ft<br>30°<br>The boom is intended to support two vertical loads F, and F. If the cable CB can sustain a maximum load of 50 kN before it fails, determine the following if F, - 1.5F,: Draw the free-body diagram.<br>(USE METRIC SYSTEM FOR ALL MEASUREMENTS)<br>1. Critical load F I Select]<br>2. Critical load F2 I Select)<br>3. Magnitude of the maximum reaction at pin A: Ax =<br>[ Select]<br>4. Magnitude of the maximum reaction at pin A: Ay =<br>[ Select 1<br>5. FBD DIAGRAM =<br>I Select1<br>](https://s3.us-east-1.amazonaws.com/storage.unifolks.com/qimg-008/008_e5p8zp0-ygccdm23.jpeg)
Extracted text: 10 Ft 30° The boom is intended to support two vertical loads F, and F. If the cable CB can sustain a maximum load of 50 kN before it fails, determine the following if F, - 1.5F,: Draw the free-body diagram. (USE METRIC SYSTEM FOR ALL MEASUREMENTS) 1. Critical load F I Select] 2. Critical load F2 I Select) 3. Magnitude of the maximum reaction at pin A: Ax = [ Select] 4. Magnitude of the maximum reaction at pin A: Ay = [ Select 1 5. FBD DIAGRAM = I Select1