Homework - Newton's 2nd and 3rd law
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Slide 1 - Diapositive
Slide 2 - Diapositive
What is the relationship between force, mass, and acceleration?
A
Force = mass x acceleration
B
Force = mass / acceleration
C
Force = mass + acceleration
D
Force = mass - acceleration
Slide 3 - Quiz
What happens to an object's acceleration if a larger force is applied?
A
It remains constant
B
It decreases
C
It increases
D
It becomes zero
Slide 4 - Quiz
How does the mass of an object affect its acceleration?
A
The mass and acceleration are unrelated
B
The larger the mass, the smaller the acceleration
C
The mass has no effect on acceleration
D
The larger the mass, the larger the acceleration
Slide 5 - Quiz
What does acceleration represent?
A
A change in position
B
A change in force
C
A constant speed
D
A change in velocity
Slide 6 - Quiz
In the formula F = ma, what does 'F' represent?
A
Energy
B
Mass
C
Acceleration
D
Force
Slide 7 - Quiz
What does a larger mass of an object require to change its velocity?
A
A larger force
B
No force
C
A smaller force
D
The same force
Slide 8 - Quiz
What happens to an object's acceleration when a larger force is applied?
A
It decreases
B
It turns into mass
C
It increases
D
It remains constant
Slide 9 - Quiz
Slide 10 - Diapositive
What is the statement of Newton’s third law?
A
For every force there is an equal and opposite force
B
For every action there is an equal and opposite reaction
C
For every motion there is an equal and opposite motion
D
For every reaction there is an equal and opposite action
Slide 11 - Quiz
According to Newton’s third law, what happens when two objects interact?
A
The forces cancel each other out
B
A pair of forces act on the two objects
C
No force is exerted on the objects
D
A single force acts on both objects
Slide 12 - Quiz
Why does a rocket move upward when the hot gases are expelled downwards?
A
Due to gravity pulling the rocket upward
B
Due to the equal and opposite reaction forces
C
Due to the rocket's shape and design
D
Due to the rocket's mass
Slide 13 - Quiz
Why do you move forward when you walk even though your feet push backwards?
A
Your body's momentum carries you forward
B
Friction between your feet and the ground
C
Your feet propel you forward
D
The ground exerts an equal and opposite force forward
Slide 14 - Quiz
What is the relationship between the size and direction of the forces in Newton’s third law?
A
The size of the forces on one object is greater than the other
B
The size of the forces on each object is equal and the direction is opposite
C
The size of the forces on each object is different and the direction is the same
D
The direction of the forces on each object is the same
Slide 15 - Quiz
Slide 16 - Diapositive
What is the role of a resultant force according to Newton’s first law?
A
stop a moving object
B
change the direction of a moving object
C
start a stationary object moving
D
slow down or speed up a moving object
Slide 17 - Quiz
What is the tendency of objects to continue in their state of rest or motion?
A
velocity
B
acceleration
C
inertia
D
momentum
Slide 18 - Quiz
How does Newton’s first law explain the movement of the body in a car when it brakes?
A
Friction slows down the body
B
Air resistance pushes the body back
C
Inertia keeps the body moving forward
D
Gravity pulls the body forward
Slide 19 - Quiz
Why does a moving object continue to move at a constant speed when no force is acting on it?
A
Inertia
B
Momentum
C
Friction
D
Gravity
Slide 20 - Quiz
What is the purpose of a seat belt in a moving car according to Newton’s first law?
A
To change the direction of the body
B
To increase speed
C
To stop the body's forward motion
D
To reduce friction
