Wiki User
∙ 14y agoFalse. Since Force=mass*acceleration, decreasing mass will increase acceleration for the same applied force.
Wiki User
∙ 14y agoFalse. Decreasing the mass of the wagon will not increase the force used to pull it. The force required to pull an object is dependent on its mass, so reducing the mass would actually decrease the force needed.
Yes, pulling a wagon involves contact force. The force exerted by the person pulling the wagon is transmitted through the wagon's wheels to the ground, generating friction that helps propel the wagon forward.
Yes, pushing a wagon involves applying force to the wagon in order to set it in motion. This action demonstrates the connection between force (the push) and motion (the movement of the wagon).
When the wagon is loaded, it increases the weight acting on the wheels, which results in an increase in friction between the wheels and the surface. This increased friction force makes it more difficult for the loaded wagon to roll compared to the empty wagon. Additionally, the weight of the load creates a downward force that presses the wheels against the ground, increasing the friction force further.
When a horse pulls a wagon, the force that causes the horse to move forward is the force of traction generated by the hooves gripping the ground. This force propels the horse and wagon forward by overcoming the friction between the hooves and the ground.
To find the force pulling the wagon forward, we need to calculate the component of the force acting in the forward direction. This can be done by multiplying the force by the cosine of the angle between the force and the horizontal. Therefore, the force pulling the wagon forward is 245 N (290 N * cos(32°)).
Yes, reducing the mass of the wagon will decrease the force required to pull it. This is based on Newton's second law of motion, which states that force is directly proportional to mass. Therefore, decreasing the mass of the wagon will lower the force needed to move it.
force
force
Yes, pulling a wagon involves contact force. The force exerted by the person pulling the wagon is transmitted through the wagon's wheels to the ground, generating friction that helps propel the wagon forward.
Yes, pushing a wagon involves applying force to the wagon in order to set it in motion. This action demonstrates the connection between force (the push) and motion (the movement of the wagon).
When the wagon is loaded, it increases the weight acting on the wheels, which results in an increase in friction between the wheels and the surface. This increased friction force makes it more difficult for the loaded wagon to roll compared to the empty wagon. Additionally, the weight of the load creates a downward force that presses the wheels against the ground, increasing the friction force further.
When a horse pulls a wagon, the force that causes the horse to move forward is the force of traction generated by the hooves gripping the ground. This force propels the horse and wagon forward by overcoming the friction between the hooves and the ground.
To find the force pulling the wagon forward, we need to calculate the component of the force acting in the forward direction. This can be done by multiplying the force by the cosine of the angle between the force and the horizontal. Therefore, the force pulling the wagon forward is 245 N (290 N * cos(32°)).
If the force preventing the wagon from moving is greater than the pull of the engine, the wagon will not move. If the force preventing movement is less than the pull of the engine, the wagon will move. If they are equal, the wagon will remain in place or move at a constant speed.
Yes, work is done when you pull a child in a wagon because you are applying a force over a distance to move the wagon and the child. Work is calculated as force multiplied by distance.
You must exert the same force on the wagon with both people inside as you did with just your friend. This will give the wagon containing both people the same acceleration as the wagon with only your friend. The total mass of the wagon and both people must be considered when applying the force.
A wagon at the top of a hill will do work when it moves downhill due to the force of gravity pulling it downward. Work is done when a force acts on an object to move it over a distance in the direction of the force, which occurs as the wagon descends the hill.