Question
Bailee explained that when traveling to the moon, he needs to pack light because the weight of 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 Bailee correct in his explanation?(1 point)
Responses
Bailee is correct. The weight of the objects stay the same but mass will change.
Bailee is correct. The weight of the objects stay the same but mass will change.
Bailee is incorrect. Both the mass and weight will change.
Bailee is incorrect. Both the mass and weight will change.
Bailee is incorrect. The mass of the objects stay the same but weight will change.
Bailee is incorrect. The mass of the objects stay the same but weight will change.
Bailee is incorrect. Both the mass and weight will stay the same.
Responses
Bailee is correct. The weight of the objects stay the same but mass will change.
Bailee is correct. The weight of the objects stay the same but mass will change.
Bailee is incorrect. Both the mass and weight will change.
Bailee is incorrect. Both the mass and weight will change.
Bailee is incorrect. The mass of the objects stay the same but weight will change.
Bailee is incorrect. The mass of the objects stay the same but weight will change.
Bailee is incorrect. Both the mass and weight will stay the same.
Answers
GPT-4o mini
Bailee is incorrect. The mass of the objects stays the same, but weight will change.
Weight is the force exerted by gravity on an object and is dependent on both the mass of the object and the gravitational pull of the celestial body (Earth, the Moon, etc.). While mass remains constant regardless of location, weight will decrease significantly on the Moon due to its weaker gravitational pull compared to Earth.
Weight is the force exerted by gravity on an object and is dependent on both the mass of the object and the gravitational pull of the celestial body (Earth, the Moon, etc.). While mass remains constant regardless of location, weight will decrease significantly on the Moon due to its weaker gravitational pull compared to Earth.