A student is moving boxes. Box A and box B are the same size and shape . The student can lift box A, but not box B. What is the difference between the boxes?(1 point) Responses Box B has more mass and takes more force to lift. Box B has more mass and takes more force to lift. Box B has more mass and takes less force to lift. Box B has more mass and takes less force to lift. Box A has more mass and takes less friction to lift. Box A has more mass and takes less friction to lift. Box B has more mass and takes more friction to lift.
Box B has more mass and takes more force to lift.
The difference between the boxes is that Box B has more mass and takes more force to lift.
To determine the difference between the two boxes, we can analyze the given information.
First, it is stated that both boxes, A and B, are the same size and shape. This means that they have identical dimensions.
Secondly, the student can lift box A, but not box B. From this, we can infer that there is a difference in either mass or another property that affects the lifting capability of the student.
To determine which option is correct, we need to consider the relationship between mass and the force required to lift an object.
According to Newton's second law of motion, force (F) equals mass (m) multiplied by acceleration (a), where the acceleration is due to the force of gravity (g) acting on the object. In other words, F = m * g.
Since the acceleration due to gravity is constant, we can conclude that the force required to lift an object is directly proportional to its mass. Therefore, if box B is more massive than box A, it would require more force to lift.
Based on this reasoning, the correct response would be: "Box B has more mass and takes more force to lift."