# Difference between revisions of "Net Force"

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− | [[Main Page]] > [[ | + | [[Main Page]] > [[Solutions to Worksheets]] > Net Force<br /> |

<br /> | <br /> | ||

==About this page== | ==About this page== | ||

− | All images uploaded for this page must start with the string " | + | All images uploaded for this page must start with the string "Net_Force_" so the image 16-38.jpg associated with chapter 16 should be uploaded as Net_Force_16-38.jpg. This way we can avoid conflicts in the image directory, and we can find images easily.<br> |

[[#top | Table of Contents]] | [[#top | Table of Contents]] | ||

---- | ---- | ||

+ | |||

==Problems== | ==Problems== | ||

===1. What is the weight of a 3.4 kg mass?=== | ===1. What is the weight of a 3.4 kg mass?=== | ||

Line 127: | Line 128: | ||

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− | ===12. | + | ===12. A rocket has engines that produce 60. N of thrust. What is its mass if it accelerates upward at 40. m/s/s?=== |

<blockquote> | <blockquote> | ||

− | + | Here comes a whole bunch of Algebra...<br><br> | |

+ | F = ma<br><br> | ||

+ | (60 N - (mg)) = m(40 m/s<sup>2</sup>)<br><br> | ||

+ | 1.5 N/m/s<sup>2</sup> - mg / 40 m/s<sup>2</sup> = m<br><br> | ||

+ | 1.5 N/m/s<sup>2</sup> = mg / 40 m/s<sup>2</sup> + m<br><br> | ||

+ | 1.5 N/m/s<sup>2</sup> = mg + 40m / 40 m/s<sup>2</sup><br><br> | ||

+ | 60 N = 40m + 9.81m<br><br> | ||

+ | 60 N = 49.81m <br><br> | ||

+ | m = 1.2 kg | ||

</blockquote> | </blockquote> | ||

[[#top | Table of Contents]] | [[#top | Table of Contents]] | ||

---- | ---- | ||

− | ===13. | + | |

+ | ===13. A dog is pulling forward on a 215 kg sled that slows from +6.20 m/s to rest in a distance of 8.25 m. What is the deceleration of the sled? If the force of friction slowing the sled is 782 N, what force is the dog exerting in the direction the sled moves?=== | ||

<blockquote> | <blockquote> | ||

− | + | -2.33 m/s/s<br><br> | |

+ | +281 N<br><br> | ||

</blockquote> | </blockquote> | ||

[[#top | Table of Contents]] | [[#top | Table of Contents]] | ||

---- | ---- | ||

− | ===14. | + | |

+ | ===14. An 18,380 kg airplane slows from 48.1 m/s to rest in 6.14 seconds. What was its acceleration? If the engines generated 112 kN (112,000 N) of reverse thrust, how much air friction was acting against the plane as it slowed down? (this would be average)=== | ||

<blockquote> | <blockquote> | ||

− | + | -7.83 m/s/s<br><br> | |

+ | -32.0 kN<br><br> | ||

</blockquote> | </blockquote> | ||

[[#top | Table of Contents]] | [[#top | Table of Contents]] | ||

---- | ---- | ||

− | ===15. | + | |

+ | ===15. A drop tower has a 118 kg experiment that free falls from rest for 2.20 seconds, and strikes an airbag that slows it to rest in a distance of 3.20 m. With what velocity does the experiment strike the airbag? What is the upward acceleration as the experiment stops? What is the upward force acting on the experiment to stop it?=== | ||

<blockquote> | <blockquote> | ||

− | + | -21.6 m/s<br><br> | |

+ | +72.6 m/s/s<br><br> | ||

+ | +9750 N<br><br> | ||

</blockquote> | </blockquote> | ||

[[#top | Table of Contents]] | [[#top | Table of Contents]] | ||

---- | ---- |

## Latest revision as of 17:36, 10 February 2009

Main Page > Solutions to Worksheets > Net Force

## Contents

- 1 About this page
- 2 Problems
- 2.1 1. What is the weight of a 3.4 kg mass?
- 2.2 2. What mass has a weight of 720. N?
- 2.3 3. Bob must exert 240. N of force on a 980. Kg car to move it at a constant speed up an incline. (The frictional and gravity force is 240. N) What is the acceleration of the car if he exerts a force of 350. N?
- 2.4 4. What is the acceleration of a 6.0 Kg object hanging on a string that is under a tension of 80. N? 30. N? (Make up positive)
- 2.5 5. . What force is needed to accelerate a 60.0 Kg cart and rider from rest to 4.20 m/s in 2.50 seconds when the friction force is 24.0 N?
- 2.6 6. What is the mass of a box that moves at a constant velocity along a surface with a force of 15 N, and accelerates at +4.2 m/s/s when you exert +26 N? (The box is moving in the same direction as the forces)
- 2.7 7. If you exert a force of 60. N on a car, it moves at a constant velocity. (i.e. there is a frictional force of 60. N) What is its mass if when you exert 80. N on it, it accelerates from rest to 2.0 m/s in 100. seconds?
- 2.8 8. A 60.0 Kg rocket accelerates upward from rest reaching a height of 23.4 m in 3.00 seconds. What must be the thrust of the engine?
- 2.9 9. It takes 45 N to make a 10. kg cart move at a constant speed. What force does it take to make the cart accelerate at 3.2 m/s/s in the direction it is moving?
- 2.10 10. What tension would accelerate a 5.0 Kg object suspended on a string upwards at 6.2 m/s/s? Downwards?
- 2.11 11. A 45.00 gram rocket accelerates upward from 0 to 12.00 m/s in .05000 seconds. What must be the thrust of the engines?
- 2.12 12. A rocket has engines that produce 60. N of thrust. What is its mass if it accelerates upward at 40. m/s/s?
- 2.13 13. A dog is pulling forward on a 215 kg sled that slows from +6.20 m/s to rest in a distance of 8.25 m. What is the deceleration of the sled? If the force of friction slowing the sled is 782 N, what force is the dog exerting in the direction the sled moves?
- 2.14 14. An 18,380 kg airplane slows from 48.1 m/s to rest in 6.14 seconds. What was its acceleration? If the engines generated 112 kN (112,000 N) of reverse thrust, how much air friction was acting against the plane as it slowed down? (this would be average)
- 2.15 15. A drop tower has a 118 kg experiment that free falls from rest for 2.20 seconds, and strikes an airbag that slows it to rest in a distance of 3.20 m. With what velocity does the experiment strike the airbag? What is the upward acceleration as the experiment stops? What is the upward force acting on the experiment to stop it?

## About this page

All images uploaded for this page must start with the string "Net_Force_" so the image 16-38.jpg associated with chapter 16 should be uploaded as Net_Force_16-38.jpg. This way we can avoid conflicts in the image directory, and we can find images easily.

Table of Contents

## Problems

### 1. What is the weight of a 3.4 kg mass?

F = ma

Weight = force

F = 3.4 x 9.8 = 33.32 N

### 2. What mass has a weight of 720. N?

F = ma

F/a = m

720 N/9.81 m/s = 73.4 m/s

### 3. Bob must exert 240. N of force on a 980. Kg car to move it at a constant speed up an incline. (The frictional and gravity force is 240. N) What is the acceleration of the car if he exerts a force of 350. N?

F = ma

F/m = a

(350 N - 240 N)/980 kg = .112 m/s^{2}

### 4. What is the acceleration of a 6.0 Kg object hanging on a string that is under a tension of 80. N? 30. N? (Make up positive)

F = ma

6 kg * 9.81 m/s = 58.9 N

A.(80 N - 58.9 N) = (6 kg)a

21.1 N = (6 kg)a

a = 3.5 m/s^{2}

B.(30 N - 58.9 N) = (6 kg)a

(-28.9 N) = (6 kg)a

a = -4.8 m/s^{2}

### 5. . What force is needed to accelerate a 60.0 Kg cart and rider from rest to 4.20 m/s in 2.50 seconds when the friction force is 24.0 N?

v/t = a

(4.2 m/s)/(2.5 s) = 1.68 m/s^{2}

F = ma

(F - 24 N) = (60 kg)(1.68 m/s^{2})

F = 125 N

### 6. What is the mass of a box that moves at a constant velocity along a surface with a force of 15 N, and accelerates at +4.2 m/s/s when you exert +26 N? (The box is moving in the same direction as the forces)

F = ma

(26 N - 15 N) = m(4.2 m/s^{2})

m = 2.6 kg

### 7. If you exert a force of 60. N on a car, it moves at a constant velocity. (i.e. there is a frictional force of 60. N) What is its mass if when you exert 80. N on it, it accelerates from rest to 2.0 m/s in 100. seconds?

F = ma

(2.0 m/s) / (100 s) = .02 m/s^{2}

(80 kg - 60 kg) = m(.02 m/s^{2})

m = 1000 kg

### 8. A 60.0 Kg rocket accelerates upward from rest reaching a height of 23.4 m in 3.00 seconds. What must be the thrust of the engine?

SUVAT!!!

s = ut + .5at^{2}

23.4 = .5a(3)^{2}

a = 5.2 m/s^{2}

F = ma

(F - (9.81m/s^{2}* 60 kg)) = 60 kg * 5.2 m/s^{2}

F = 901 N

### 9. It takes 45 N to make a 10. kg cart move at a constant speed. What force does it take to make the cart accelerate at 3.2 m/s/s in the direction it is moving?

F = ma

(F - 45 N) = 10 kg * 3.2 m/s^{2}

F = 77 N

### 10. What tension would accelerate a 5.0 Kg object suspended on a string upwards at 6.2 m/s/s? Downwards?

F = ma

A.(F - (5 kg * 9.81 m/s^{2}) = 5 kg * 6.2 m/s^{2}

F = 80 N

B.(F - (5 kg * 9.81 m/s^{2}) = 5 kg * -6.2 m/s^{2}

F = 18 N

### 11. A 45.00 gram rocket accelerates upward from 0 to 12.00 m/s in .05000 seconds. What must be the thrust of the engines?

SUVAT!!! AGAIN!!!

v = u + at

12 m/s = 0 m/s + a(.05 s)

a = 240 m/s^{2}

F = ma

(F - (.045 kg * 9.81 m/s^{2})) = .045 kg * 240 m/s^{2}

F = 11.24 N

### 12. A rocket has engines that produce 60. N of thrust. What is its mass if it accelerates upward at 40. m/s/s?

Here comes a whole bunch of Algebra...

F = ma

(60 N - (mg)) = m(40 m/s^{2})

1.5 N/m/s^{2}- mg / 40 m/s^{2}= m

1.5 N/m/s^{2}= mg / 40 m/s^{2}+ m

1.5 N/m/s^{2}= mg + 40m / 40 m/s^{2}

60 N = 40m + 9.81m

60 N = 49.81m

m = 1.2 kg

### 13. A dog is pulling forward on a 215 kg sled that slows from +6.20 m/s to rest in a distance of 8.25 m. What is the deceleration of the sled? If the force of friction slowing the sled is 782 N, what force is the dog exerting in the direction the sled moves?

-2.33 m/s/s

+281 N

### 14. An 18,380 kg airplane slows from 48.1 m/s to rest in 6.14 seconds. What was its acceleration? If the engines generated 112 kN (112,000 N) of reverse thrust, how much air friction was acting against the plane as it slowed down? (this would be average)

-7.83 m/s/s

-32.0 kN

### 15. A drop tower has a 118 kg experiment that free falls from rest for 2.20 seconds, and strikes an airbag that slows it to rest in a distance of 3.20 m. With what velocity does the experiment strike the airbag? What is the upward acceleration as the experiment stops? What is the upward force acting on the experiment to stop it?

-21.6 m/s

+72.6 m/s/s

+9750 N