Based on the third law motion of equal and opposite forces, a mass should never accelerate because the net force on it will always be zero. Resolve the issue. would F=ma answer this question? If a force is exerted by

Based on the third law motion of equal and opposite forces, a mass should never accelerate because the net force on it will always be zero. Resolve the issue.

would F=ma answer this question? If a force is exerted by object A on object B, then B exerts a

Two bowling balls roll directly towards one another, run into each other, and then bounce off each other in opposite directions. Which of Newton’s Laws of Motion does this example BEST represent?

(1 point) Responses Newton’s First Law: An object at rest

A soccer ball is rolling across a field when Tamika kicks it in a different direction, causing the speed of the ball to increase. Which of Newton’s Laws of Motion does this example BEST represent?

(1 point) Responses Newton’s First Law: An object at

Liam creates a bowling ball animation and designs the shape and color of the ball but has not added any motion to the bowling ball. Thus, the bowling ball sits in the middle of the screen not moving. Which of Newton’s Laws of Motion does this example

Study the image

A girl holds an apple with two equal opposing forces: an upward force of hand on apple, and downward force of Earth on apple. Which of these correctly explains whether this image is an example of Newton’s third law, and why? Girl holding

Two colliding objects exert equal and opposite forces on each other (Newton's Third Law). However, acceleration experienced by an object is inversely related to its mass: the smaller the mass, the larger the acceleration for a given force (pp. 49-50).

10. __________ is a law which states that for every action, an equal and opposite reaction results.

Newton’s first law of motion Newton’s third law of motion Bernoulli’s principle Newton’s second law of motion It is the Third Law Right?

a) You are sitting at the center of the back seat of a car without seat belts and friction is low. The car suddenly makses a right turn. Describe what happens to you. WHich of Newton's laws is applicable?

The car would be goind straight before the turn so

Could you please check my answers? Thanks!

1. You push a heavy car by hand. The car, in turn, pushes back with an opposite but equal force on you. Doesn’t this mean the forces cancel one another, making acceleration impossible? Why or why not? -No,

Newtons Third Law of Motion states that for every action there is an equal and opposite reaction. Which of these illustrates Newton's Third Law?

A Two students of similar mass run into each other. They bounce off each other when they collide. B Two students

1. You push a heavy car by hand. The car, in turn, pushes back with an opposite but equal force on you. Doesn’t this mean the forces cancel one another, making acceleration impossible? Why or why not?

-No, because of the system that is involved. The

1. What is the equation for speed? *

1 point A d=s/t B s=d * t C s= d/t D t= s/d 2. Acceleration refers to: * 1 point A. speeding up B. slowing down C. changing direction D. All of the above 3. Your family is driving to the beach. You travel 200 kilometers

What are Newton's Laws of Motion?

Isaac Newton was an English physicist and mathematician. His Laws of Motion introduce us to physics. Physics is the study of how matter behaves and moves. Matter is physical substance. It is anything that has mass and takes

According to Newton's Third Law, for every action there is an equal an opposite reaction. If the current on the wire is such so that the magnetic force on the wire points upward, what must be true?

1. There is no force on the magnet. All forces act on the

Force Interactions Unit Test

7 of 97 of 9 Items Question In which situation would the momentum of a moving object increase?(1 point) Responses A force acting in the direction of the object’s motion is removed from the object. A force acting in the

For my science project i have to choose a sport and list five carefully thoughtout ways that Newton's three Laws of Motion are involed in the game i selected.

The sport i have selected is tennis. i have 3 ways already but i am missing 2 more. Here are the 3

𝟙.) Which term describes how far an object has traveled from its original location?

🅰🅽🆂🆆🅴🆁: displacement 𝟚.) What would the position-time graph look like for an object that remains still over time? 🅰🅽🆂🆆🅴🆁: a

Each of the following statements has 1, 2, or 3 conceptual flaws. Explain what is wrong with each sentence (I just need help finding a website for this)

1. A rocket moves through space because the exhaust from the rocket's engine pushes against the

Newton's first law of motion is often stated as: An object at rest stays at rest and an object in motion stays in motion with the same speed and in the same direction unless acted upon by an unbalanced force . Based on Newton’s 1st Law describe a

In which situation would the momentum of a moving object increase?(1 point)

Responses A new force acts on the object, opposing the object’s motion. A new force acts on the object, opposing the object’s motion. A force acting in the direction of the

1.A ball bounces on the ground. How do the ball and the ground act on each other?

answerer= the ball and the ground exert forces on each other magnitude but in opposite directions. 2.According to Newton’s third law of motion, which statement is always

In which situation would the momentum of a moving object increase?

Two forces of equal magnitude act on the object in opposite directions. Two forces of equal magnitude act on the object in opposite directions. A new force acts on the object, opposing the

I have a science question that I don't quite understand.

Would you have to to have physical contact to exert a force? Not necessarily. Could we blow very hard and exert a force on something? When I was a kid I liked to make paper pin wheels and blow on them

a mass sits at rest on top of a table. which two forces are action-reaction pair forces and thus are equal and opposite?

Hello everyone

I know that when a force is applied it has to exert a force opossite But this really is not in my head can someone please give me an evidence or even a diagram showing how can we exert an opposite force if we are walking forwards Thanks alot

a child causes a wagon to accelerate by pulling it with a horizontal force. newton's third law says that the wagon exerts an equal and opposite force on the child. how can the wagon accelerate? (hint: draw a free-body diagram for each object.)

A bike is hanging from a hook in a garage. You need to consider the following forces.

(a) The force of the Earth pulling down on the bike. (b) The force of the bike pulling up on the Earth. (c) The force of the hook pulling up on the bike. (d) The force of

A bike is hanging from a hook in a garage. You need to consider the following forces.

(a) The force of the Earth pulling down on the bike. (b) The force of the bike pulling up on the Earth. (c) The force of the hook pulling up on the bike. (d) The force of

1. An 1760 kg car is moving to the right at a constant velocity of 2.94 m/s.

(a) What is the net force on the car? (b) What would be the net force on the car if it were moving to the left? 2.A freight train has a mass of 6 107 kg. If the locomotive can

1. An 1760 kg car is moving to the right at a constant velocity of 2.94 m/s.

(a) What is the net force on the car? (b) What would be the net force on the car if it were moving to the left? 2.A freight train has a mass of 6 107 kg. If the locomotive can

CAN SOMEONE PLEASE HELP ME; I NEED TO KNOW IF MY ANSWERS TO THESE QUESTIONS ARE CORRECT! THANK YOU SO MUCH!!

1.) Whenever an interaction occurs in a system forces occur in equal and opposite pairs. Which of the following do not always occur in equal and

1. A ball bounces on the ground. How do the ball and the ground act on each other?

The ball exerts a stronger force than the ground but in the same direction. The ball exerts a stronger force than the ground but in the same direction. The ball and the

an object accelerates only if the forces acting on it in one drection are greater than the forces in the opposite direction, all of the following objects will accelerate except

What would cause the momentum of a moving object to increase?

* 1 point A force acting in the direction opposite the object’s motion is removed from the object. Two forces of equal magnitude act on the object in opposite directions. A force acting in the

In which situation would the momentum of a moving object increase?

A: A new force acts on the object, opposing the object’s motion. B: A force acting in the direction opposite the object’s motion is removed from the object. C: A force acting in the

a child causes a wagon to accelerate by pulling it with a horizontal force.

newton's third law says that the wagon exerts an equal and opposite force on the child. how can the wagon accelerate

A bike is hanging from a hook in a garage. Consider the following forces.

(a) The force of the Earth pulling down on the bike. (b) The force of the bike pulling up on the Earth. (c) The force of the hook pulling up on the bike. (d) The force of the hook

Kepler's Second Law Quick Check.

Hello! if you want to check your answers here is a guide to compare your answers. Please keep in mind answers may vary from school. 1. Which does Kepler’s second law state about planetary motion? A. A line between the

When two charged particles are moving toward each other, their velocities decrease until they eventually come to a stop. What happens afterward?(1 point)

Responses They bond and accelerate together. They bond and accelerate together. They remain in the same

When two charged particles are moving toward each other, their velocities decrease until they eventually come to a stop. What happens afterward?(1 point)

Responses They bond and accelerate together. They bond and accelerate together. They remain in the same

Two people push a box from opposite directions, the box does not move. Which statement best explains this result? (1 point)

O Push forces do not cause motion. O The forces have different magnitudes. O The box pushes back on the people. O Balanced forces do

two identical spheres of mass 1.okg each carry a charge of 1.0 C. in comparing the electric and gravitational forces between the spheres, it can be concluded that

a. Fe is greater than Fg b. Fg is greater than Fe c. the two forces are equal d. the forces

Which of these accurately describes Newton’s third law?

Responses “For every action force, there is an equal and opposite reaction force.” “For every action force, there is an equal and opposite reaction force.” “The stronger the net force

when items float freely inside a space capsule, is it an example of Newton's law #1 or #3? As soon as the astronauts take off their helmets and gloves (after lift-off) in Apollo 13, the gloves float away. So is that an object in motion tends to stay in

An object accelerates (changes its speed) only if the forces acting on it in one direction are greater than the forces in the opposite direction, All of the following objects will accelerate EXCEPT?

An object accelerates (changes its speed) only if the forces acting on it in one direction are greater than the forces in the opposite direction, All of the following objects will accelerate EXCEPT?

15. Rowing a boat and a rocket taking off into space are examples of which law of motion? *

A law of gravitational force*** B law of inertia C Newton's 2nd law of Motion D Newton's 3rd law of motion

(4)_____ was a physicist who developed the Three Laws of Motion. (5)_____ states that ”the (6)_____ of an object is equal to the (7)_____ on an object divided by the mass of the object”. For example, this means that an object with a greater mass

When two charged particles are moving toward each other, their velocities decrease until they eventually come to a stop. What happens afterward?(1 point)

Responses They bond and accelerate together. They bond and accelerate together. They remain in the same

A horse pulls upon a wagon, but according to Newton’s third law the wagon pulls back with an equal and opposite force upon the horse. Use a free-body diagram and show all the involved forces.

i posted this question before but i still don't get it. Could

7) - An object accelerates (changes its speed) only if the forces acting on it in one direction are greater than the forces in the opposite direction, All of the following objects will accelerate EXCEPT?

A) a ball striking a wall, in which the force of the

An object accelerates (changes its speed) only if the forces acting on it in one direction are greater than the forces in the opposite direction, All of the following objects will accelerate EXCEPT?

A) a ball striking a wall, in which the force of the ball

An object accelerates (changes its speed) only if the forces acting on it in one direction are greater than the forces in the opposite direction, All of the following objects will accelerate EXCEPT?

A) a ball striking a wall, in which the force of the ball

7) - An object accelerates (changes its speed) only if the forces acting on it in one direction are greater than the forces in the opposite direction, All of the following objects will accelerate EXCEPT?

A) a ball striking a wall, in which the force of the

An object accelerates (changes its speed) only if the forces acting on it in one direction are greater than the forces in the opposite direction, All of the following objects will accelerate EXCEPT?

A) a ball striking a wall, in which the force of the ball

1. Which of the following statements about Newton's Third Law is the most true?

a The forces acting upon two objects are dependent on the initial velocities of the objects b The law of conservation of momentum is obeyed in all systems c The two objects

an object accelerates (cahnges its speed) only if the forces acting on it in one direction are greater than the forces in the opposite direction, All of the following objects will accelerate EXCEPT

a) a ball striking a wall, in which the force of the ball

An object accelerates (changes its speed) only if the forces acting on it in one direction are greater than the forces in the opposite direction, All of the folloeing objects will accelerate EXCEPT

a)a ball striking a wall, in which the force of the ball on

An object accelerates (changes its speed) only if the forces acting on it in one direction are greater than the forces in the opposite direction, All of the folloeing objects will accelerate EXCEPT

a)a ball striking a wall, in which the force of the ball on

An object accelerates (changes its speed) only if the forces acting on it in one direction are greater than the forces in the opposite direction, All of the folloeing objects will accelerate EXCEPT

a)a ball striking a wall, in which the force of the ball on

an object accelerates (cahnges its speed) only if the forces acting on it in one direction are greater than the forces in the opposite direction, All of the following objects will accelerate EXCEPT

a) a ball striking a wall, in which the force of the ball

The measurable properties of a substance, such as vapor pressure and surface tension, occur due to the strength of _____.(1 point)

Responses gravitational forces between particles, as given by Coulomb’s law gravitational forces between particles, as given

when a truck pulls a trailer, the trailer and truck accelerate forward even though the action and reaction forces are the same size but are in opposite directions. why don't these forces balance each other out

When a truck pulls a trailer, the trailer and truck accelerate forward even though the action and reaction forces are the same size but are in opposite directions. Why don’t these forces balance each other?

when a truck pulls a trailer the trailer and truck accelerate forward even though the action and reaction forces are the same size but in opposite direction why don't these forces balance each other out

When a truck pulls a trailer, the trailer and truck accelerate forward even though the action and reaction forces are the same size but are going in opposite directions. Why don't these forces balance each other out?

Which of the following is an example of Newton's Third Law of Motion?

A. A swimmer pushes water back with her arms, but her body moves forward. B. When a car slams on their brakes and papers on the passenger seat fall to the floor of the car. C. A pitched

1. In boxing, fighters wear padded gloves to protect their hands. Which statement explains why a fighter’s hands need protection?

A. There is an equal and opposite velocity impact the hand. B. There is an equal and opposite acceleration impact the hand.

For a body to be in equilibrium under the combined action of several forces.

a) all the forces must be applied at the same point b) all of the forces form pairs of equal and opposite forces c) the sum of the components of all the forces in any direction

When the mover pushes the box, two equal forces result. Explain why the box moves even though the forces are equal and opposite

Use a free body diagram to evaluate the situation. What is the tension in each of the ropes attached to the ceiling if the hanging mass is 0.55 kg?

Two ropes are attached to the ceiling carrying the same box. One is tilted at a 30 degree angle and the

Which law gives the force between two objects that is related to their mass and distance?

Kepler's law Coulomb's law Newton's second law of motion Newton's law of gravitation*****

The main idea of the article is that Newton's Three Laws of Motion teach us important rules about physics.

Which key detail supports the main idea? A Isaac Newton was an English physicist and mathematician. B Physics is the study of how matter behaves and

a strong magnet attracts a paper clip to itself with a certain force. Does the paper clip exert a force on the strong magnet? If so, why not? If so, does it exert as much force on the magnet as the magnet exerts on it?

Newtons Third Law: Forces are always

How can anything accelerate if every force has and equal and opposite counterpart?

If only external forces can cause the center of mass of a system of particles to accelerate, how can a car on level ground ever accelerate? We normally think of the car’s engine as supplying the force needed to accelerate the car, but is this true? Where

1. How can the momentum of a moving object be found?

A. By multiplying its mass by its acceleration. B. By dividing its change in distance trabeled by the time it travels. C. By dividing its velocity bu the time it travels. D. By multiplying its mass by its

Need serious help!!

1. How can the momentum of a moving object be found? A. By multiplying its mass by its acceleration. B. By dividing its change in distance trabeled by the time it travels. C. By dividing its velocity bu the time it travels. D. By

Newton's First Law Quick Check

1 of 51 of 5 Items Question In which situation are unbalanced forces acting on an object?(1 point) Responses Two people stand on opposite sides of a large tire. Both people pull the tire with equal force. Two people stand on

A tractor pulls forward a moving plow with a force of 2.5*10^4N, which is just large enough to overcome friction.

A) what are the action, reaction forces between the tractor and the plow B) Are these reaction, action forces equal in magnitude and opposite

When you drop a 0.27-kg apple, Earth exerts a force on it that accelerates it at 9.8 m/s2 toward Earth's surface. According to Newton's third law, the apple must exert an equal and opposite reaction force on Earth. If the mass of Earth is 5.98 1024 kg,

Which of the following is an example of Newton's First Law?

a A stationary book on the table must be picked up in order for it to move b A rocket made with lighter composite materials will accelerate faster than a heavier one c A baseball hits collides with

A mass M is initially at rest on a horizontal surface, μs=0.30 and μk=0.20 . A horizontal string then pulls M with a tension T. Forces below are magnitudes. Indicate if each statement is correct or incorrect

If M does not accelerate, then T ≤ μsN M

A mass M is initially at rest on a horizontal surface, μs=0.30 and μk=0.20 . A horizontal string then pulls M with a tension T. Forces below are magnitudes. Indicate if each statement is correct or incorrect

If M does not accelerate, then T ≤ μsN M

I have a question about a problem regarding Newton's third law.

a. An iron rod is held up by a magnet. The magnet is held up by a string (from a ceiling, let's say). Draw a free-body diagram for the magnet and a separate free-body diagram for the iron rod.

Question: Fill in the blank. If two forces work in opposite directions of an object, the ________ between the two forces equal the net force.

Answer Choices: A)Difference B)Similarity C)Equality

When two charged particles are moving toward each other, their velocities decrease until they eventually come to a stop. What happens afterward?(1 point)

Responses They remain in the same place without moving. They remain in the same place without moving.

When two charged particles are moving toward each other, their velocities decrease until they eventually come to a stop. What happens afterward? (1 point) They accelerate toward each other.

They accelerate in opposite directions. They bond and accelerate

When two charged particles are moving toward each other, their velocities decrease until they eventually come to a stop. What happens afterward? (1 point)

They accelerate in opposite directions. They bond and accelerate together. They accelerate toward each

The measurable properties of a substance, such as vapor pressure and surface tension, occur due to the strength of _____.(1 point)

Responses gravitational forces between particles, as given by Coulomb’s law electrical forces between particles, as given by

A balloon filled with some liquid is inflated and immersed under water. The balloon remains at rest under water. What would happen if the volume of the balloon decreased while the mass remained the same?

Responses The balloon would float and accelerate

1. The line on the graph below represents an object that is:

A: Moving at a constant speed B: Increasing its speed C: Decreasing it's speed D: Not moving at all 2. To determine the acceleration of an object moving in a straight line, you must calculate the

A block of mass 7.33 kg in outerspace is moving at 1.72 m/s with no external forces acting on it. After an explosion, the block is split into two parts both having mass equal to half the mass of the original block. The explosion supplies the two masses

1. Which of Newton’s laws of motion states that an object at rest stays at rest and an object in motion stays in motion with the same speed and the same direction unless acted upon by an unbalanced force? (1 point)

Newton’s fourth law of motion

A sledgehammer is swung at a wall. Once the sledgehammer hits the wall it does not breakthrough. How do the hammer and the wall act on each other?

The hammer exerts a stronger force than the wall but in the opposite direction. The hammer exerts a stronger

A condition for mechanical equilibrium is that the sum of the forces acting equal zero. Another condition is that the sum of the _____A) centrifugal forces also equal zero B) centers of gravity balance.C) torques equal zero.D) rotational inertias equal

A ball bounces on the ground. How do the ball and the ground act on each other?(1 point)

Responses The ball exerts a stronger force than the ground and in the opposite direction. The ball exerts a stronger force than the ground and in the opposite

The H-R diagram can be a plot of what?

A. luminosity versus mass B. absolute magnitude versus spectral type C. color index versus spectral type D. size verses mass E. temperature verses density information on forces and motion information on forces and

Two equal forces applied to a rotating rod, one very close to the axis and one far from the axis. Which force produces the largest torque?

a. the one closest to the axis b. the one furthest from the axis How would you kick a football so that id did not spin

Use sine law to explain why the 2 equal sides of an isoceles triangle must be opposite the two equal angles