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 a greater mass than table B.
Table A has a greater mass than table B.
Table A has less density than table B
Table A has less density than table B
Table A has greater volume compared to table B.
Table A has greater volume compared to 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.
The correct response is:
Table A has a greater mass than table B.
The correct answer is: Table A has a greater mass than table B.
To understand why table A requires more force to move despite being the same size as table B, we need to consider the concept of mass. Mass is a measure of the amount of matter an object contains. It is different from weight, which is the force exerted on an object due to gravity.
In this scenario, even though both tables have the same size, table A has a greater mass than table B. This means that table A contains more matter and therefore has a higher resistance to motion. According to Newton's second law of motion, F = ma, where F represents force, m represents mass, and a represents acceleration. When you push or pull an object, you need to exert a force to overcome its inertia and cause it to move. Since table A has a greater mass, a greater force is required to accelerate it and move it compared to table B with a lower mass. Hence, table A requires more force to move.