What is the magnitude of a force?(1 point)
Responses
the direction of the force
the direction of the force
the motion of the force
the motion of the force
the type of force
the type of force
the amount of force
17 answers
the amount of force
Two people push a box from opposite directions; the box does not move. Which statement best explains this result?(1 point)
Responses
The box pushes back on the people.
The box pushes back on the people.
The forces have different magnitudes.
The forces have different magnitudes.
Balanced forces do not cause motion.
Balanced forces do not cause motion.
Push forces do not cause motion.
Responses
The box pushes back on the people.
The box pushes back on the people.
The forces have different magnitudes.
The forces have different magnitudes.
Balanced forces do not cause motion.
Balanced forces do not cause motion.
Push forces do not cause motion.
Balanced forces do not cause motion.
A soccer player kicks a ball toward a net. Which statement correctly explains how far the ball will travel?(1 point)
Responses
A stronger kick corresponds to a lesser magnitude of force, so the ball will travel farther.
A stronger kick corresponds to a lesser magnitude of force, so the ball will travel farther.
A stronger kick corresponds to a greater magnitude of force, so the ball will travel farther.
A stronger kick corresponds to a greater magnitude of force, so the ball will travel farther.
A stronger kick corresponds to a lesser magnitude of force, so the ball will not travel as far.
A stronger kick corresponds to a lesser magnitude of force, so the ball will not travel as far.
A stronger kick corresponds to a greater magnitude of force, so the ball will not travel as far.
Responses
A stronger kick corresponds to a lesser magnitude of force, so the ball will travel farther.
A stronger kick corresponds to a lesser magnitude of force, so the ball will travel farther.
A stronger kick corresponds to a greater magnitude of force, so the ball will travel farther.
A stronger kick corresponds to a greater magnitude of force, so the ball will travel farther.
A stronger kick corresponds to a lesser magnitude of force, so the ball will not travel as far.
A stronger kick corresponds to a lesser magnitude of force, so the ball will not travel as far.
A stronger kick corresponds to a greater magnitude of force, so the ball will not travel as far.
A stronger kick corresponds to a greater magnitude of force, so the ball will travel farther.
In which situation is the magnitude of the total force greater than the magnitude of each of the individual forces?(1 point)
Responses
Two people stand on the same side of a large box. One pushes, and the other pulls with the same amount of force.
Two people stand on the same side of a large box. One pushes, and the other pulls with the same amount of force.
Four people stand on each side of a large box. All four people push the box with the same amount of force.
Four people stand on each side of a large box. All four people push the box with the same amount of force.
Four people stand on each side of a large box. All four people pull the box with the same amount of force.
Four people stand on each side of a large box. All four people pull the box with the same amount of force.
Two people stand on opposite sides of a large box. One pushes, and the other pulls with the same amount of force.
Responses
Two people stand on the same side of a large box. One pushes, and the other pulls with the same amount of force.
Two people stand on the same side of a large box. One pushes, and the other pulls with the same amount of force.
Four people stand on each side of a large box. All four people push the box with the same amount of force.
Four people stand on each side of a large box. All four people push the box with the same amount of force.
Four people stand on each side of a large box. All four people pull the box with the same amount of force.
Four people stand on each side of a large box. All four people pull the box with the same amount of force.
Two people stand on opposite sides of a large box. One pushes, and the other pulls with the same amount of force.
Two people stand on opposite sides of a large box. One pushes, and the other pulls with the same amount of force.
Which expression is correctly developed to use the Product Rule of Exponents?(1 point)
Responses
108⋅108
10 superscript 8 baseline times 10 superscript 8 baseline
(52)9
left parenthesis 5 squared right parenthesis superscript 9 baseline
62⋅73
6 squared times 7 cubed
327
32 superscript 7 baseline
Responses
108⋅108
10 superscript 8 baseline times 10 superscript 8 baseline
(52)9
left parenthesis 5 squared right parenthesis superscript 9 baseline
62⋅73
6 squared times 7 cubed
327
32 superscript 7 baseline
62⋅73
Which of the following correctly used the Product Rule of Exponents to simplify the expression 1008⋅1007?(1 point)
Responses
10015
100 superscript 15 baseline
20015
200 superscript 15 baseline
10056
100 superscript 56 baseline
10,00015
Responses
10015
100 superscript 15 baseline
20015
200 superscript 15 baseline
10056
100 superscript 56 baseline
10,00015
10,00015
Find the numerical equivalent of 102 ⋅103(1 point)
Responses
1,100
1,100
105
10 superscript 5 baseline
10
10
100,000
Responses
1,100
1,100
105
10 superscript 5 baseline
10
10
100,000
100,000
Find the numerical equivalent of 25 ⋅2−2(1 point)
Responses
8
8
16
16
128
128
2
Responses
8
8
16
16
128
128
2
2
Find the numerical equivalent of 49⋅4−7(1 point)
Responses
416
4 superscript 16 baseline
16
16
4
4
42
4 squared
Responses
416
4 superscript 16 baseline
16
16
4
4
42
4 squared
4
2 answers