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You see an object accelerate towards the left. Which of the following statements is correct?
The tree was stationary and began to move.
a push or a pull
The net force on an object will equal the mass of the object multiplied by its acceleration.
There is no net force on the object.
Gravity pulling down on the vase and the force of the table pushing up on the vase are equal.
There is a net force on the object to the left.
Friction pushes against an object, slowing it down.
There is no net force on the red team.
A tree is standing still. The wind begins to blow and the tree bends. Which statement best explains how you could tell that a net force was acting on the tree?
The tree was stationary and began to move.
a push or a pull
The net force on an object will equal the mass of the object multiplied by its acceleration.
There is no net force on the object.
Gravity pulling down on the vase and the force of the table pushing up on the vase are equal.
There is a net force on the object to the left.
Friction pushes against an object, slowing it down.
There is no net force on the red team.
A force can be best defined as:
The tree was stationary and began to move.
a push or a pull
The net force on an object will equal the mass of the object multiplied by its acceleration.
There is no net force on the object.
Gravity pulling down on the vase and the force of the table pushing up on the vase are equal.
There is a net force on the object to the left.
Friction pushes against an object, slowing it down.
There is no net force on the red team.
Which of the following is an example of a net force?
The tree was stationary and began to move.
a push or a pull
The net force on an object will equal the mass of the object multiplied by its acceleration.
There is no net force on the object.
Gravity pulling down on the vase and the force of the table pushing up on the vase are equal.
There is a net force on the object to the left.
Friction pushes against an object, slowing it down.
There is no net force on the red team.
Which of the following statement best states Newton's second law?
The tree was stationary and began to move.
a push or a pull
The net force on an object will equal the mass of the object multiplied by its acceleration.
There is no net force on the object.
Gravity pulling down on the vase and the force of the table pushing up on the vase are equal.
There is a net force on the object to the left.
Friction pushes against an object, slowing it down.
There is no net force on the red team.
You observe two teams in a tug-of-war. The red team is moving towards the blue team with a constant velocity. Which of the following statements must be true?
The tree was stationary and began to move.
a push or a pull
The net force on an object will equal the mass of the object multiplied by its acceleration.
There is no net force on the object.
Gravity pulling down on the vase and the force of the table pushing up on the vase are equal.
There is a net force on the object to the left.
Friction pushes against an object, slowing it down.
There is no net force on the red team.
Choose the best ending. If an object is traveling with a constant velocity...
The tree was stationary and began to move.
a push or a pull
The net force on an object will equal the mass of the object multiplied by its acceleration.
There is no net force on the object.
Gravity pulling down on the vase and the force of the table pushing up on the vase are equal.
There is a net force on the object to the left.
Friction pushes against an object, slowing it down.
There is no net force on the red team.
A vase of flowers is stationary on a table. Which of the following statements best explains why the vase is stationary?
The tree was stationary and began to move.
a push or a pull
The net force on an object will equal the mass of the object multiplied by its acceleration.
There is no net force on the object.
Gravity pulling down on the vase and the force of the table pushing up on the vase are equal.
There is a net force on the object to the left.
Friction pushes against an object, slowing it down.
There is no net force on the red team.
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