Bali explained that when traveling to the Moon you need to pack light because of the weight of the objects on the moon is the same as their weight on Earth the mass of the objects is what changes when the gravitational pull changes is Bali correct in his explanation value is incorrect both the mass and the weight will stay the same but the weight will change volume
Bali's explanation is partially correct. The weight of the objects on the moon is indeed less compared to Earth due to the moon's lower gravitational pull. However, the mass of the objects will remain the same regardless of the gravitational pull. It is important to note that weight is dependent on both mass and the gravitational force acting upon it, while mass refers to the amount of matter in an object, which remains constant. Therefore, when traveling to the moon, although the objects would have the same mass, their weight would be lower than on Earth. Bali's statement about the volume of the objects is not directly related to the question and thus does not affect the accuracy of the explanation.
Bali's explanation is partially correct. When traveling to the Moon, the weight of objects does indeed change because the Moon has less gravitational pull compared to Earth. However, the mass of the objects remains the same.
The weight of an object is the force exerted upon it due to gravity, while the mass of an object refers to the amount of matter it contains. So, on the Moon, where the gravity is weaker, the weight of objects will be less compared to their weight on Earth. However, the mass of the objects themselves does not change.
Additionally, the volume of an object is unrelated to the change in gravitational pull. The volume represents the amount of space an object occupies, and it remains the same regardless of the gravitational environment.
Therefore, Bali's statement is incorrect in regards to the change in mass, but correct in relation to the change in weight.