10. when you push against a wall, the wall pushes back with a) less force than you apply b) the same force you apply c) no force at all d) double the force you apply answer the following questions in complete sentences. 11. explain in your own words how gravity affects the orbits of planets around the sun. 12. describe a real - life example of newtons first law of motion. 13. why is it important to wear a seat belt in a moving car, according to newtons laws? show your work for each question using the equation force = mass * acceleration. 14. a soccer ball has a mass of 0.45 kg. if a player kicks it and the ball accelerates at 18 m/s², what is the force applied to the ball? 15. a train car has a mass of 2,500 kg and accelerates at 0.8 m/s² as it leaves the station. as it does this, it is pushing with a force against the rails. how much force is it pushing with? 16. a student pushes a box with a force of 30 n, causing it to accelerate at 2 m/s². what is the mass of the box?

Question

Accepted Answer

10.
# Explanation:
## Step1: Recall Newton's third - law
Newton's third law states that for every action, there is an equal and opposite reaction. When you push against a wall, the wall pushes back with the same force you apply.
# Answer:
b) The same force you apply

11.
# Brief Explanations:
Gravity is a force of attraction between two masses. The Sun's gravity pulls on the planets, causing them to follow curved paths (orbits) instead of moving in straight - lines. The strength of the gravitational pull depends on the mass of the Sun and the distance of the planet from it.
# Answer:
The Sun's gravitational force pulls on the planets, causing them to move in curved orbits around the Sun instead of in straight lines. The greater the mass of the Sun and the closer the planet, the stronger the gravitational pull and the more curved the orbit.

12.
# Brief Explanations:
Newton's first law states that 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. A book on a table remains at rest until a force (like someone picking it up) acts on it.
# Answer:
A book lying on a table will remain there until a force is applied to move it. This is because the book is at rest and will stay at rest according to Newton's first law, as there is no unbalanced force acting on it until an external force such as a person picking it up is applied.

13.
# Brief Explanations:
According to Newton's first law, a person in a moving car has inertia. If the car suddenly stops, the person will continue moving forward due to inertia. A seat - belt provides an unbalanced force to stop the person from moving forward and potentially getting injured.
# Answer:
When a car is moving, a person inside has inertia. If the car suddenly stops, the person will keep moving forward. A seat - belt applies a force to stop the person's forward motion, preventing injury, as per Newton's first law.

14.
# Explanation:
## Step1: Identify the formula
The formula for force is $F = ma$, where $F$ is force, $m$ is mass, and $a$ is acceleration.
## Step2: Substitute the values
Given $m = 0.45$ kg and $a=18$ m/s². Then $F=(0.45)	imes(18)$.
## Step3: Calculate the force
$F = 8.1$ N
# Answer:
8.1 N

15.
# Explanation:
## Step1: Use the force formula
We know $F = ma$, with $m = 2500$ kg and $a = 0.8$ m/s².
## Step2: Calculate the force
$F=(2500)	imes(0.8)=2000$ N
# Answer:
2000 N

16.
# Explanation:
## Step1: Rearrange the force formula
From $F = ma$, we can solve for $m$ as $m=\frac{F}{a}$.
## Step2: Substitute the values
Given $F = 30$ N and $a = 2$ m/s². Then $m=\frac{30}{2}$.
## Step3: Calculate the mass
$m = 15$ kg
# Answer:
15 kg

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QUESTION IMAGE

Question

Explanation:

Step1: Recall Newton's third - law

Answer: