Interpret force diagrams and sums of forces - Middle School Physical Science

The answer is "unbalanced, the object is moving left with a force of 50 Newtons." The object is moving because the forces are unbalanced, and the net force is 50 Newtons to the left because the magnitude of that force is 50 Newtons stronger than the one going right.

When we make diagrams or drawings of forces, we use vectors. A vector is an arrow that represents the magnitude and the direction of a force. The magnitude is how strong the force is, usually in Newtons, and the direction can be expressed in north, south, east, west, left, right, up, or down.

In order to evaluate the sum of forces in a free body diagram you have to add the vectors of forces both in the horizontal and in the vertical direction. The sum of forces in all directions is called the “net force.” When forces are going in opposite directions, they should be subtracted or the value of one of the forces should be given a negative to account for the direction.

The answer is "500 N left" because the upwards and downwards forces are balanced, and the leftward force is 500N.

When we make diagrams or drawings of forces, we use vectors. A vector is an arrow that represents the magnitude and the direction of a force. The magnitude is how strong the force is, usually in Newtons, and the direction can be expressed in north, south, east, west, left, right, up, or down.

In order to evaluate the sum of forces in a free body diagram you have to add the vectors of forces both in the horizontal and in the vertical direction. The sum of forces in all directions is called the “net force.” When forces are going in opposite directions, they should be subtracted or the value of one of the forces should be given a negative to account for the direction.

The answer is "1,002 N to the right" because the up and down forces are balanced, and the force acting towards the left is 1,0002 N stronger than the force acting to the right

The answer is 30 Newtons to the left.

When we make diagrams or drawings of forces, we use vectors. A vector is an arrow that represents the magnitude and the direction of a force. The magnitude is how strong the force is, usually in Newtons, and the direction can be expressed in north, south, east, west, left, right, up, or down.

In order to evaluate the sum of forces in a free body diagram you have to add the vectors of forces both in the horizontal and in the vertical direction. The sum of forces in all directions is called the “net force.” When forces are going in opposite directions, they should be subtracted or the value of one of the forces should be given a negative to account for the direction.

The answer is "The net force in the upwards and downwards direction is zero."

When we make diagrams or drawings of forces, we use vectors. A vector is an arrow that represents the magnitude and the direction of a force. The magnitude is how strong the force is, usually in Newtons, and the direction can be expressed in north, south, east, west, left, right, up, or down.

In order to evaluate the sum of forces in a free body diagram you have to add the vectors of forces both in the horizontal and in the vertical direction. The sum of forces in all directions is called the “net force.” When forces are going in opposite directions, they should be subtracted or the value of one of the forces should be given a negative to account for the direction.

The answer is "Some of the forces are negative because they're going different directions."

When we make diagrams or drawings of forces, we use vectors. A vector is an arrow that represents the magnitude and the direction of a force. The magnitude is how strong the force is, usually in Newtons, and the direction can be expressed in north, south, east, west, left, right, up, or down.

In order to evaluate the sum of forces in a free body diagram you have to add the vectors of forces both in the horizontal and in the vertical direction. The sum of forces in all directions is called the “net force.” When forces are going in opposite directions, they should be subtracted or the value of one of the forces should be given a negative to account for the direction.

The answer is "0 Newtons" because all the forces are balanced.

When we make diagrams or drawings of forces, we use vectors. A vector is an arrow that represents the magnitude and the direction of a force. The magnitude is how strong the force is, usually in Newtons, and the direction can be expressed in north, south, east, west, left, right, up, or down.

In order to evaluate the sum of forces in a free body diagram you have to add the vectors of forces both in the horizontal and in the vertical direction. The sum of forces in all directions is called the “net force.” When forces are going in opposite directions, they should be subtracted or the value of one of the forces should be given a negative to account for the direction.

The answer is 18,000 Newtons because there is no normal force acting on the object in the upward direction if there is no surface below it.

When we make diagrams or drawings of forces, we use vectors. A vector is an arrow that represents the magnitude and the direction of a force. The magnitude is how strong the force is, usually in Newtons, and the direction can be expressed in north, south, east, west, left, right, up, or down.

In order to evaluate the sum of forces in a free body diagram you have to add the vectors of forces both in the horizontal and in the vertical direction. The sum of forces in all directions is called the “net force.” When forces are going in opposite directions, they should be subtracted or the value of one of the forces should be given a negative to account for the direction.

The answer is false. The book has forces acting on it but the net force is 0.

When we make diagrams or drawings of forces, we use vectors. A vector is an arrow that represents the magnitude and the direction of a force. The magnitude is how strong the force is, usually in Newtons, and the direction can be expressed in north, south, east, west, left, right, up, or down.

In order to evaluate the sum of forces in a free body diagram you have to add the vectors of forces both in the horizontal and in the vertical direction. The sum of forces in all directions is called the “net force.” When forces are going in opposite directions, they should be subtracted or the value of one of the forces should be given a negative to account for the direction.

The answer is "It is moving to the right with a force of 500 Newtons," because the two 250 N forces are going the same direction and thus added together.

When we make diagrams or drawings of forces, we use vectors. A VECTOR is an arrow that represents the MAGNITUDE and the DIRECTION of a force. The magnitude is how strong the force is, usually in Newtons, and the direction can be expressed in north, south, east, west, left, right, up, or down.

In order to evaluate the sum of forces in a free body diagram you have to add the vectors of forces both in the horizontal and in the vertical direction. The sum of forces in all directions is called the “net force.” When forces are going in opposite directions, they should be subtracted or the value of one of the forces should be given a negative to account for the direction.

The answer is "unbalanced, the object is moving left with a force of 50 Newtons." The object is moving because the forces are unbalanced, and the net force is 50 Newtons to the left because the magnitude of that force is 50 Newtons stronger than the one going right.

When we make diagrams or drawings of forces, we use vectors. A vector is an arrow that represents the magnitude and the direction of a force. The magnitude is how strong the force is, usually in Newtons, and the direction can be expressed in north, south, east, west, left, right, up, or down.

In order to evaluate the sum of forces in a free body diagram you have to add the vectors of forces both in the horizontal and in the vertical direction. The sum of forces in all directions is called the “net force.” When forces are going in opposite directions, they should be subtracted or the value of one of the forces should be given a negative to account for the direction.

The answer is "500 N left" because the upwards and downwards forces are balanced, and the leftward force is 500N.

When we make diagrams or drawings of forces, we use vectors. A vector is an arrow that represents the magnitude and the direction of a force. The magnitude is how strong the force is, usually in Newtons, and the direction can be expressed in north, south, east, west, left, right, up, or down.

In order to evaluate the sum of forces in a free body diagram you have to add the vectors of forces both in the horizontal and in the vertical direction. The sum of forces in all directions is called the “net force.” When forces are going in opposite directions, they should be subtracted or the value of one of the forces should be given a negative to account for the direction.

The answer is "1,002 N to the right" because the up and down forces are balanced, and the force acting towards the left is 1,0002 N stronger than the force acting to the right

The answer is 30 Newtons to the left.

When we make diagrams or drawings of forces, we use vectors. A vector is an arrow that represents the magnitude and the direction of a force. The magnitude is how strong the force is, usually in Newtons, and the direction can be expressed in north, south, east, west, left, right, up, or down.

In order to evaluate the sum of forces in a free body diagram you have to add the vectors of forces both in the horizontal and in the vertical direction. The sum of forces in all directions is called the “net force.” When forces are going in opposite directions, they should be subtracted or the value of one of the forces should be given a negative to account for the direction.

The answer is "The net force in the upwards and downwards direction is zero."

When we make diagrams or drawings of forces, we use vectors. A vector is an arrow that represents the magnitude and the direction of a force. The magnitude is how strong the force is, usually in Newtons, and the direction can be expressed in north, south, east, west, left, right, up, or down.

In order to evaluate the sum of forces in a free body diagram you have to add the vectors of forces both in the horizontal and in the vertical direction. The sum of forces in all directions is called the “net force.” When forces are going in opposite directions, they should be subtracted or the value of one of the forces should be given a negative to account for the direction.

The answer is "Some of the forces are negative because they're going different directions."

When we make diagrams or drawings of forces, we use vectors. A vector is an arrow that represents the magnitude and the direction of a force. The magnitude is how strong the force is, usually in Newtons, and the direction can be expressed in north, south, east, west, left, right, up, or down.

In order to evaluate the sum of forces in a free body diagram you have to add the vectors of forces both in the horizontal and in the vertical direction. The sum of forces in all directions is called the “net force.” When forces are going in opposite directions, they should be subtracted or the value of one of the forces should be given a negative to account for the direction.

The answer is "0 Newtons" because all the forces are balanced.

When we make diagrams or drawings of forces, we use vectors. A vector is an arrow that represents the magnitude and the direction of a force. The magnitude is how strong the force is, usually in Newtons, and the direction can be expressed in north, south, east, west, left, right, up, or down.

In order to evaluate the sum of forces in a free body diagram you have to add the vectors of forces both in the horizontal and in the vertical direction. The sum of forces in all directions is called the “net force.” When forces are going in opposite directions, they should be subtracted or the value of one of the forces should be given a negative to account for the direction.

The answer is 18,000 Newtons because there is no normal force acting on the object in the upward direction if there is no surface below it.

When we make diagrams or drawings of forces, we use vectors. A vector is an arrow that represents the magnitude and the direction of a force. The magnitude is how strong the force is, usually in Newtons, and the direction can be expressed in north, south, east, west, left, right, up, or down.

In order to evaluate the sum of forces in a free body diagram you have to add the vectors of forces both in the horizontal and in the vertical direction. The sum of forces in all directions is called the “net force.” When forces are going in opposite directions, they should be subtracted or the value of one of the forces should be given a negative to account for the direction.

The answer is false. The book has forces acting on it but the net force is 0.

When we make diagrams or drawings of forces, we use vectors. A vector is an arrow that represents the magnitude and the direction of a force. The magnitude is how strong the force is, usually in Newtons, and the direction can be expressed in north, south, east, west, left, right, up, or down.

In order to evaluate the sum of forces in a free body diagram you have to add the vectors of forces both in the horizontal and in the vertical direction. The sum of forces in all directions is called the “net force.” When forces are going in opposite directions, they should be subtracted or the value of one of the forces should be given a negative to account for the direction.