A sailboat is traveling at a steady speed of 13 mph. The force of the wind pushing against the sail is _______ the opposing force of the water resistance.
multiple choice
equal to
greater than
less than
I think your teacher wants you to say equal, if all the forces are in equilibrium, there is no acceleration.
about ple
In this scenario, we can assume that the water resistance is the opposing force to the wind pushing against the sail. Given that the sailboat is traveling at a steady speed of 13 mph, we can conclude that the force of the wind pushing against the sail is equal to the opposing force of the water resistance. Therefore, the answer is "equal to."
To determine the relationship between the force of the wind pushing against the sail and the opposing force of water resistance, we need to consider the concept of Newton's second law of motion. According to this law, the net force acting on an object is equal to the product of its mass and acceleration.
Since the sailboat is traveling at a steady speed, we know that it is not accelerating. Therefore, the net force acting on the sailboat is zero.
The opposing forces acting on the sailboat are the force of the wind pushing against the sail and the force of water resistance. If these forces are equal, they will cancel each other out, resulting in a net force of zero.
Hence, the correct answer is: equal to.