Concept:According to Archimedes' principle, the buoyant force equals the weight of fluid displaced. The apparent weight of an object in a fluid is its weight in air minus the buoyant force. A smaller apparent weight means a larger buoyant force. Buoyant force is directly proportional to the density of the fluid.Explanation:Weight in air = 150 N. In liquid A = 100 N, so buoyant force in A = 150 − 100 = 50 N. In liquid B = 95 N, so buoyant force in B = 150 − 95 = 55 N. Since buoyant force in B is greater than in A, the density of liquid B is greater than that of liquid A. Thus statement (A) and statement (B) are both correct.For statement (C): An object floats if its density is less than or equal to the fluid's density. Because density of B > density of A, any object that floats in liquid A (density ≤ A) will have density ≤ A < B, so it will definitely float in liquid B. Hence statement (C) is also correct.Answer:C. (A), (B) and (C)