Determine the deflection at B. Let P = 200 lb, a = 55 in., b = 27 in., and EI = 58 × 106 lb·in.2.

Determine the deflection at C. Let P = 110 lb, a = 46 in., b = 26 in., and EI = 49 × 106 lb·in.2.

Determine the deflection at B. Let P = 110 lb, a = 73 in., b = 45 in., and EI = 83 × 106 lb·in.2.

If the support at C has settled downward a distance of Δ = 0.049 in., determine the reaction force at C. Let P = 166 lb, a = 48 in., and EI = 222 × 106 lb·in.2.

Determine the magnitude of the slope at A. Let M = 15,700 lb·in., a = 130 in. and EI = 130 × 106 lb·in.2.

If the support at B has settled downward a distance of Δ = 0.014 in., determine the reaction force at B. Let w = 12 lb/in., a = 134 in., and EI = 45 × 106 lb·in.2.

Determine the deflection at B. Let M = 6,600 lb·in., a = 50 in., b = 34 in., and EI = 51 × 106 lb·in.2.

Determine the deflection at C. Let P = 170 lb, a = 59 in., b = 27 in., and EI = 38 × 106 lb·in.2.

 Professor Rush can produce 36 denim jackets or 24 cat sweaters each afternoon. Professor Rush’s opportunity cost of producing each additional denim jacket is

Determine the reaction force at B. Let w = 17 lb/in., a = 67 in., and EI = 89 × 106 lb·in.2.