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TRANSCRIPT
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Aureus Imperiumguidebook
Campaign 4: The Unleashed
potential in victoriaphysical science
Introduction to victoria
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With Vexis' dreams of creating new life dashed, you turn to a battered Maurice Wilkins who introduces you to a man by the name of Dr. Edward Jenner. He claims he can use the Shrieker cell membrane and DNA to artificially create a virus that will only target Shrieker cells. "It is like creating a cold that only those dreadful beasts can catch!" Jenner exclaims. "All this
time I have worked to fight viruses, this is the first time I shall try my hand at creating one!"
All eyes turn to the sky as a bloated football-shaped craft slips into view. You marvel at the airship floats above you. Under the incredible air-bladder is a boat-like structure and there at the rail is an angry Necrift!
"Shipments of Vexis' creations are already in route to my master!" he shouts. "You've stopped nothing!" From under the ship drops several small containers that crack open on impact with the shore. Gas erupts from the containers as you and the others flee to the lab compound.
"Are there any other airships here?" you question, watching the madman escape to the south.
"Haber is heading for Victoria." Jenner assumes, "We've lost all contact with them for some time. The telegraph lines must have been destroyed to cut off communication between the continents." Jenner grabs your arm, "Newton was here. You just missed them. He spoke of their desires to unleash the potential energies stored in the universe. This must not be allowed to happen! It could destroy everything!"
"How do I get to Victoria?" "It is southeast of here. It is a land of enlightenment and science. The industrialized age is
in full swing. They have marvels that could only be dreamt of! That airship Haber is taking is just one of thousands of new pieces of technology! New energy drives unimaginable possibilities! You must not allow them to unleash the energies that remain hidden!"
Skills learned within this campaignLearning Target:
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Forces have magnitude and direction.1. I can explain that the motion of an object is always measured with respect to a reference point.
2. I can define the net force of an object as the sum of all of the forces acting on it.
3. I can create and use force diagrams / free body diagrams to compare the forces on an object.
4. I can compare an object’s direction and speed when its net force is zero and when its net force is greater than zero.
5. I can analyze and compare forces that oppose motion of an object.
There are different types of potential energy.6. I can explain that gravitational potential energy changes in a system as the masses or relative position(s) of objects are changed.
7. I can identify and compare gravitational, elastic, chemical, electrical, and magnetic potential energy.
8. I can, given specific materials, plan and implement an experiment to determine the relationship between the height/mass of a metal sphere and the amount of change it can make to sand held in a container below.
Some forces between objects act when the objects are in direct contact or when they are not touching.9. I can explain how two objects can exert forces on each other without touching.
10. I can describe energy conversions of generators versus motors.
11. I can compare the electric, magnetic, and gravitational fields.
12. I can design and build a prototype of an electromagnetic device that can be attached to a crane to attract a metal mass and released it at a desired location.
Essential vocabulary "spells" learned within this campaign"To know the meaning of a word is to have power over that word and
everything it stands for"
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1. Motion:
2. Frame of Reference (Reference Frame):
3. Reference Point:
4. Speed:
5. Velocity:
6. Instantaneous Speed:
7. Average Speed:
8. Acceleration:
9. Force:
10. Gravity:
11. Friction:
12. Air Resistance:
13. Drag:
14. Newton (N):
15. Net Force:
16. Normal Force:
17. Free Body Diagram (Force Diagram):
18. Inertia:
19. Mass:
20. Newton's First Law of Motion:
21. Newton's Second Law of Motion:
22. Newton's Third Law of Motion:
23. Field Force:
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24. Magnetism / Magnetic Fields:
25. Electric Fields:
26. Gravitational Fields:
27. Mechanical Energy:
28. Kinetic Energy:
29. Potential Energy:
30. Gravitational Potential Energy:
31. Elastic Potential Energy:
32. Magnetic Potential Energy:
33. Electrical Potential Energy:
34. Chemical Potential Energy:
35. Electromagnetic /Radiant / Light Energy:
36. Thermal Energy:
37. Sound Energy:
38. Law of Conservation of Energy:
39. Electromagnetism:
40. Solenoid:
41. Electric Motors:
42. Electric Generators:
43. Turbine:
motion is Relative-Reference frames and relative velocity
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Summary: What information did you learn to help you on your journey?
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Activity 1: What did you observe?
Was the object moving from your point of view?
Explanation:
Activity 2: What did the teacher observe?
Was the object moving from the teacher's point of view?
Explanation:
BASED ON THE SIMPLE DEMONSTRATIONCan you say whether or not the ball was moving during the two experiments? Explain your answer. (Hint) Compare what the different observers had to do to keep seeing the ball through their telescopes.
In general, how do you know whether something is moving or not?
Name two observers who see you stationary right now. How do you know?
Name two observers who see you moving right now. How do you know?
WHAT IF:Chris observes a car through his scope. He is turning his scope to the left. In what direction is the car moving? Jodi watched the same car, but she is not moving the scope. How can this be? What might happen to the size of the car as Jodi watches it?
Why do we say that motion is relative? Explain.
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A Frame of Reference or (Reference Frame) includes 3 things. You need these three things if you are trying to describe the movement of an object in science. What are they?
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2.
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a) Use what you have learned so far about describing motion to explain the sequence of photographs using a reference frame. Who is moving, and in what direction?
b) What pieces of information are used in the reference frame to describe the motion?
What is the difference between speed and velocity?
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RELATIVE VELOCITY RULES1. If two objects are traveling in the opposite direction, you should:
Time= 0 Time= 1 Min Time = 2 Min
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2. If two objects are traveling in the same direction, but the frame of reference is moving faster than the observed object, you should:
3. 2. If two objects are traveling in the same direction, but the frame of reference is moving slower than the observed object, you should:
From the person’s point of view:-What is the velocity of the green car?
-What is the velocity of the orange car?
From the driver of the orange car’s point of view: -What is the velocity of the blue car?
-What is the velocity of the green car?
From the driver of the blue car’s point of view: -What is the velocity of the orange car? -What is the velocity of the green car?
Use notebook paper to add more information as needed!Graphing Motion
Summary: What information did you learn to help you on your journey?
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1. Sketch the shape of a distance versus time graph showing an object at rest:
2 . Sketch the shape of a distance versus time graph showing an object moving forward at a constant speed.
3. Describe how you can tell which runner won the race in the distance versus time graph below.
4. Sketch the shape of a distance versus time graph showing an object moving forward as it speeds up, or accelerates.
5. What does a downward slope mean on a distance versus time graph?
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6.
7. What does the slope of the line tell you on a distance versus time graph?
8. What does the slope of the line tell you on a velocity versus time graph?
9. Sketch a velocity versus time graph showing an object moving with a constant speed.
10. Sketch a velocity versus time graph showing an object speeding up (Positive acceleration)
11. Sketch a velocity versus time graph showing an object slowing down (Negative Acceleration) 12. Which line shows the greater acceleration? How do you know?
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13. Motion Equations:
How do you calculate the average speed of an object? Show the equation below.
How do you calculate the acceleration of an object? Show the equation below.
Identify 3 things on a car that causes it to accelerate. Keep in mind the definition of both velocity and acceleration.
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Use notebook paper to add more information as needed!
Forces
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Summary: What information did you learn to help you on your journey?
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1. What is a force?
2. How are contact forces different from field forces?
3. Describe the force of gravity and how we measure its strength.
4. Describe the force of friction and explain why friction exists.
5. Air resistance / drag is caused by what?
6. What unit is used to measure the strength of forces?
7. Force is a ____________ measurement because it includes both direction and magnitude.
8. What is net force?
9. Why do objects accelerate in the direction of the net force?
10. If forces are being applied in the same direction, what do you do with them to find the net force?
11. If forces are being applied in opposite directions, what do you do with them to find the net force?
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12. If the forces are balanced, what does the net force equal?
13. If the forces are balanced, and net force equals 0, the object will not accelerate. What two types of motion can the object have if acceleration equals zero:
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14. What are force diagrams or free body diagrams?
15. Solve for the net force acting on the objects by using the free body / force diagrams below.
a. b. c
16. Draw the free body diagram / force diagram for the forces acting on this plane. Be sure to use our shortcut to show equal forces, since we don’t have any force magnitudes identified.
Use notebook paper to add more information as needed!
Newton's Laws of MotionSummary: What information did you learn to help you on your journey?
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Use notebook paper to add more information as needed! Field Forces
Summary: What information did you learn to help you on your journey?
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Objects have a region of influence surrounding them, called “_____________”.
This field can be _______________, __________________ or ___________________.
Magnetic FieldsThe field is the area around a magnet that can ___________ or ___________ objects in its field.
Depends on: ___________________________
____________________________
They always have two ________________ (North and South) where the magnetic field is the strongest_______________ poles attract N-S, while ________________ poles repel
The field is strongest at its ___________________.
Magnetic fields _____________________ rapidly with increasing distance!
Electric FieldsElectric fields can ________________ or ______________, depending on the charge of the object that is involved.
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Electric fields get _______________ at greater distances.
The greater the charge, the _________________ the field
Two opposing _________________; positive and negative.
Opposites charges _________________, same charges _______________!
Creates positive (+) or negative (-) atoms called ions, by removing or adding __________________
Electrons have a ________________ charge
Electrons are easily moved by rubbing or by external force fields
Gravitational FieldsGravitational fields surround all objects that have _____________
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If two objects are placed near one another, they will be _____________ to one another!
Gravitational fields ________________ as the mass of an object decreases.
Gravitational fields _______________ as distance between objects increases.
_______________ of Sun keeps planets revolving around it
________________ groups stars into galaxies
Gravity of ______________ creates tides on Earth
This force is hard to detect unless at least one of the objects is massive (like a star or planet)
Therefore, gravity is a somewhat weak force. For instance, the magnetic force of a fridge magnet can overcome the force of gravity of the Earth
Use notebook paper to add more information as needed!
EnergySummary: What information did you learn to help you on your journey?
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1. What is energy?
2. What is mechanical energy?
3. Describe gravitational potential energy: Why is this a form of potential energy?
4. Describe kinetic energy:
5. Describe elastic potential energy: Why is this a form of potential energy?
6. Describe magnetic potential energy: Why is this a form of potential energy?
7. Describe electrical potential energy: Why is this a form of potential energy?
8. Describe chemical potential energy: Why is this a form of potential energy?
9. Describe electromagnetic (radiant) energy:
10. Describe thermal energy: Why is thermal energy almost always generated?
11. Describe sound energy: Why is sound energy almost always generated? 12. State the Law of Conservation of Energy:
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13. Complete the Energy Concept Web Below. For each type of energy, write a brief description and an example. The description and example labels have been provided for gravitational potential energy to show you an example.
Use notebook paper to add more information as needed! Electromagnetism
Summary: What information did you learn to help you on your journey?
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Energy: The ability to do work
Kinetic Energy
Gravitational Potential Energy
Elastic Potential Energy
Magnetic Potential Energy
Electrical Potential Energy
Chemical Potential Energy
Thermal Energy
Sound Energy
Electromagnetic Energy
Description: Example:
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1. What is electromagnetism?
2. What is a solenoid? Draw one in the space below.
3. Why does an electromagnet create a magnetic field when a current runs through a coil of wire? What happens to the domains?
4. Identify two ways in which an electromagnet can be made stronger.
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4. Explain one use for electromagnets in our modern lives.
5. Explain the energy transformation that occurs in an electric motor.
6. The force of the motor’s spin depends on:
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7. The direction of the motor’s spin force depends on: --
8. Explain the energy transformation that occurs in an electric generator.
9. What is a turbine?
10. If a turbine is needed to spin in an electric generator to generate electricity, identify three ways in which humans have built power plants to spin a turbine.
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Use notebook paper to add more information as needed!