A student is moving furniture. Even though table A and table B are the same size, table A requires more force to move. Why?(1 point)
Responses
Table A has greater volume compared to table B.
Table A has greater volume compared to table B.
Table A has less density than table B
Table A has less density than table B
Table A has less weight than table B.
Table A has less weight than table B.
Table A has a greater mass than table B.
Table A has a greater mass than table B.
Table A has a greater mass than table B.
The correct response is:
Table A has a greater mass than table B.
The correct answer is: Table A has greater mass than table B.
When it comes to moving objects, the force required is directly related to the mass of the objects. Mass is a measure of the amount of matter in an object.
To understand why table A requires more force to move, we need to compare the mass of table A with the mass of table B. If table A has a greater mass, it will require more force to move.
To determine the mass of an object, you can use a scale or balance. Place each table separately on the scale and measure their masses. The table with a greater mass will be table A, indicating that it requires more force to move.
It is important to note that mass and weight are often used interchangeably in everyday language, but they are not the same thing. Mass is a measure of an object's inertia, while weight is the force exerted on an object due to gravity.
So, while it is true that table A could potentially have less weight than table B (if they are in different gravitational environments), the correct answer here is that table A has a greater mass than table B, which is why more force is required to move it.