PHY102 All Week Assignments latest 2018 july

Week 1 assignment

Application Paper Task 1

Review the "Application Paper Guidelines."

For task 1, identify an application of one or more concepts from this course. A list of possible topics has been provided in the "Application Paper Guidelines."

To successfully complete task 1, do the following:

Briefly describe the application. This could be the draft for your introduction paragraph.

Provide a brief outline of the topics for each of the body paragraphs.

Prepare this assignment according to the guidelines found in the GCU Style Guide, located in the Student Success Center.

You are not required to submit this assignment to Turnitin.

PHY-102 Application Paper Guidelines

Overall Project Review

During this course, many concepts in the physical sciences will be examined in detail. You will select an application, research it, and write a 750-1,000 word paper on it. The following are brief descriptions of the project tasks:

Task 1: Identify your topic and write a brief outline.

Task 2: Submit your final paper.

Possible Topics for the Application Paper

These are just ideas. You are welcome to pick another topic. The purpose of Task 1 is for you to present your topic to your instructor and receive feedback on your plans.

The physics of a sport (pick one)

The physics of a bicycle (or any other machine)

The physics of car accidents

The physics of flying

The physics of space exploration

The camera

The combustion engine

The air conditioner

The chemistry of an element (or an atomic group of elements)

Nuclear medicine

Application of radioactivity (pick one)

Plastic – production and properties

Waste water treatment plants

The chemistry of a pharmaceutical (pick one)

The catalytic converter

The workings of a smokestack of a factory or a power plant

The chemistry of fertilizers

The chemistry of preservatives

Application Paper: Task 1

For Task 1, identify an application of one or more concepts from this course. A list of possible topics has been provided above.

To successfully complete task 1, do the following:

1. Briefly describe the application. This could be the draft for your introduction paragraph.

2. Provide a brief outline of the topics for each of the body paragraphs.

Application Paper: Task 2

Using the work you completed in Task 1, write your application paper, which should be 750-1,000 words.

Include the following:

1. An introduction.

2. A minimum of three body paragraphs each describing some aspect of the application. Make sure to include how each aspect relates to one or more concept(s) from this course. You may choose to include the history of the application as one paragraph.

3. A concluding paragraph.

4. You must use at least two scholarly sources in addition to the textbook as references to support your paper. Make sure to properly cite your sources.

Prepare this assignment according to the guidelines found in the GCU Style Guide, located in the Student Success Center.

This assignment uses a rubric. Please review the rubric prior to beginning the assignment to become familiar with the expectations for successful completion.

You are required to submit this assignment to Turnitin. Please refer to the directions in the Student Success Center.

Week 1 assignment

Motion Exercises

Complete the Motion Exercises.

GCU style is not required, but solid academic writing is expected.

You are not required to submit this assignment to Turnitin.

PHY-102: Motion Exercises

Complete the following exercises.

1. Jane is collecting data for a ball rolling down a hill. She measures out a set of different distances and then proceeds to use a stopwatch to find the time it takes the ball to roll each distance.

a. What is the independent variable in her experiment?

b. What is the dependent variable in her experiment?

c. Give one control variable for her experiment.

2. Consider an experiment where you drop an object.

a. Briefly describe your proposed experiment. (Make sure it is controlled).

b. What would be the independent variable for your experiment?

c. What would be the dependent variable for your experiment?

d. Give one control variable for your experiment.

3. Consider a freely falling object.

a. What is the acceleration (in m/s2) after 5 seconds of fall?

b. What is the acceleration (in m/s2) after 10 seconds of fall?

c. What is the velocity (in m/s) after 5 seconds of fall?

d. What is the velocity (in m/s) of 10 seconds of fall?

4. A sign is hung between two cables as illustrated below. If the sign weighs 350 N, what is the tension (in N) in each cable?

5. A construction worker on a high-rise building is on a platform suspended between two cables as illustrated below. The construction worker weighs 850 N, the plank weighs 450 N, and the tension in the left cable is 550 N.

a. What is the tension (in N) in the right cable?

b. Explain your answer.

6. Two forces of 50 N and 30 N, respectively, are acting on an object. Find the net force (in N) on the object if …

a. the forces are acting in the same direction

b. the forces are acting in opposite directions.

7. A box is pulled straight across the floor at a constant speed. It is pulled with a horizontal force of 48 N.

a. Find the net force (in N) on the box.

b. Find the force of friction (in N) from the floor on the box.

c. The person pulling on the box stops pulling and the box comes to a rest. Find the force of friction (in N) on the box when at rest.

8. A bowling ball rolls 32 meters in 0.8 seconds. Find the average speed (in m/s) of the bowling ball in m/s.

9. A car accelerates from 3.5 m/s to 17 m/s in 4.5 seconds. Find the acceleration of the car in m/s2.

10. Rank the following from lowest to highest:

a. The support force on you standing in an elevator at rest.

b. The support force on you standing in an elevator accelerating upward.

c. The support force on you standing in an elevator accelerating downward.

11. Describe the speed and acceleration of the ball released from the top of the track shown in the figure below.

12. Describe the speed and acceleration of the ball released from the top of the track shown in the figure below.

13. Describe the speed and acceleration of the ball released from the top of the track shown in the figure below.

14. You throw a ball upward with a speed of 14 m/s. What is the acceleration of the ball after it leaves your hand? Ignore air resistance and provide an explanation for your answer.

15. How would your answer to the previous question change if you take into account the effects of air resistance?

16. Describe the speed and acceleration of a person sky diving. Include in your explanation a description of the motion before the parachute is opened as well as a description of the motion after the parachute is opened.

17. A net force of 24 N is acting on a 4.0-kg object. Find the acceleration in m/s2.

18. A person pulls horizontally with a force of 64 N on a 14-kg box. There is a force of friction between the box and the floor of 36 N. Find the acceleration of the box in m/s2. Show your work.

The remaining questions are multiple-choice questions:

19. One difference between a hypothesis and a theory is that a hypothesis

A. is a guess that has not been well tested, whereas a theory is a synthesis of well-tested guesses.

B. is testable, whereas a theory is not testable.

C. can be revised, whereas a theory cannot be revised.

D. is not testable, whereas a theory is testable.

20. A car starts from rest and reached a speed of 24 m/s in 6 seconds. What is the acceleration of the car?

A. 144 m

B. 6 m/s2

C. 4 m/s2

D. 10 m/s2

E. 0 m/s2

21. Which of the following forces is NOT a contact force?

A. Friction force

B. Support force

C. Force of gravity

D. Tension force

22. If you pull horizontally on a desk with a force of 150 N and the desk doesn't move, the friction force must be 150 N. Now if you pull with 250 N so the desk slides at constant velocity, the friction force is

A. more than 150 N, but less than 250 N.

B. 250 N.

C. more than 250.

23. Suppose a particle is accelerated through space by a constant 10 N force. Suddenly the particle encounters a second force of 10 N in a direction opposite to that of the first force. The particle

A. is brought to a rapid halt.

B. theoretically accelerates to speeds approaching the speed of light.

C. continues at the speed it had when it encountered the second force.

D. gradually slows down to a halt.

24. Newton's First Law of Motion applies to

A. objects at rest only.

B. moving objects only.

C. both moving and nonmoving objects.

25. A freely falling object starts from rest. After falling for 2 seconds, it will have a speed of about

A. 5 m/s

B. 10 m/s

C. 20 m/s

D. 40 m/s

26. Suppose an object is in free fall. Each second the object falls

A. the same distance as in the second before.

B. a larger distance than in the second before.

C. with the same instantaneous speed.

D. with the same average speed.

Week 2 assignment

Complete the Energy and Circular Motion Exercises.

GCU style is not required, but solid academic writing is expected.

You are not required to submit this assignment to Turnitin.

PHY-102: Energy and Circular Motion Exercises

Complete the following exercises.

1. A rifle with a longer barrel can fire bullets with a larger velocity than a rifle with a shorter barrel.

a. Explain this using the impulse-momentum theorem.

b. Explain this using the work-energy theorem

2. Use physics terms to explain the benefits of crumple zones in modern cars.

3. When a gun is fired at the shooting range, the gun recoils (moves backward). Explain this using the law of conservation of momentum.

4. Rank the following in terms of increasing inertia:

A. A 10,000 kg train car at rest

B. A 100 kg person running at 5 m/s

C. A 1200 kg car going 15 m/s

D. A 15 kg meteor going at a speed of 1000 m/s

5. Rank the following in terms of increasing momentum:

A. A 10,000 kg train car at rest

B. A 100 kg person running at 5 m/s

C. A 1200 kg car going 15 m/s

D. A 15 kg meteor going at a speed of 1000 m/s

6. Rank the following in terms of increasing kinetic energy:

A. A 1200 kg car going 15 m/s

B. A 10,000 kg train car at rest

C. A 15 kg meteor going at a speed of 1000 m/s

D. A 100 kg person running at 5 m/s

7. Ben (55 kg) is standing on very slippery ice when Junior (25 kg) bumps into him. Junior was moving at a speed of 8 m/s before the collision and Ben and Junior embrace after the collision. Find the speed of Ben and Junior as they move across the ice after the collision. Give the answer in m/s. Describe the work you did to get the answer.

8. Identical marbles are released from the same height on each of the following four frictionless ramps.

Compare the speed of the marbles at the end of each ramp. Explain your reasoning.

9. A force of only 150 N can lift a 600 N sack of flour to a height of 0.50 m when using a lever as shown in the diagram below.

a. Find the work done on the sack of flour (in J).

b. Find the distance you must push with the 150 N force on the left side (in m).

c. Briefly explain the benefit of using a lever to lift a heavy object.

10. Rank the following in terms of increasing power.

A. Doing 100 J of work in 10 seconds.

B. Doing 100 J of work in 5 seconds.

C. Doing 200 J of work in 5 seconds.

D. Doing 400 J of work in 30 seconds.

11. A student lifts a 25 kg mass a vertical distance of 1.6 m in a time of 2.0 seconds.

a. Find the force needed to lift the mass (in N).

b. Find the work done by the student (in J).

c. Find the power exerted by the student (in W).

12. A satellite is put into an orbit at a distance from the center of the Earth equal to twice the distance from the center of the Earth to the surface. If the satellite had a weight at the surface of 4000 N, what is the force of gravity (weight) of the satellite when it is in its orbit? Give your answer in newtons, N.

13. Consider a satellite in a circular orbit around the Earth.

a. Why is it important to give a satellite a horizontal speed when placing it in orbit?

b. What will happen if the horizontal speed is too small?

c. What will happen if the horizontal speed is too large?

14. If you drop an object from a distance of 1 meter above the ground, where would it fall to the ground in the shortest time: Atop Mt. Everest or in New York?

15. Why do the astronauts aboard the space station appear to be weightless?

16. Why do the passengers on a high-flying airplane not appear weightless, similar to the astronauts on the space station?

17. A ranger needs to capture a monkey hanging on a tree branch. The ranger aims his dart gun directly at the monkey and fires the tranquilizer dart. However, the monkey lets go of the branch at exactly the same time as the ranger fires the dart. Will the monkey get hit or will it avoid the dart?

The remaining questions are multiple-choice questions:

18. Compared to its weight on Earth, a 5 kg object on the moon will weigh

A. the same amount.

B. less.

C. more.

19. Compared to its mass on Earth, a 5 kg object on the moon will have

A. the same mass.

B. less mass.

C. more mass.

20. The reason padded dashboards are used in cars is that they

A. look nice and feel good.

B. decrease the impulse in a collision.

C. increase the force of impact in a collision.

D. decrease the momentum of a collision.

E. increase the time of impact in a collision.

21. Suppose you are standing on a frozen lake where there is no friction between your feet and the ice. What can you do to get off the lake?

A. Bend over touching the ice in front of you and then bring you feet to your hands.

B. Walk very slowly on tiptoe.

C. Get on your hands and knees and crawl off the ice.

D. Throw something in the direction opposite to the way you want to go.

22. A car travels in a circle with constant speed. Which of the following is true?

A. The net force on the car is zero because the car is not accelerating.

B. The net force on the car is directed forward, in the direction of travel.

C. The net force on the car is directed inward, toward the center of the curve.

D. The net force on the car is directed outward, away from the center of the curve.

23. A job is done slowly, and an identical job is done quickly. Which of the following is true?

a. They require the same amount of force, but different amounts of work.

b. They require the same amount of work, but different amounts of power.

c. They require the same amounts of power, but different amounts of work.

d. They require the same amounts of work, but different amounts of energy.

24. How many joules of work are done on a box when a force of 60 N pushes it 5 m in 3 seconds?

a. 300 J

b. 12 J

c. 100 J

d. 36 J

e. 4 J

25. A 1 kg cart moving with a speed of 3 m/s collides with a 2 kg cart at rest. If the carts stick together after the collision, with what speed will they move after the collision?

a. 3 m/s

b. 1.5 m/s

c. 1 m/s

d. 2 m/s

Week 3 assignment

Fluid and Thermal Physics Exercises

PHY-102: Fluid and Thermal Physics Exercises

Complete the following exercises.

1. Rank the following in terms of increasing density:

A. A100 g object with a volume of 25 cubic centimeters

B. A 200 g object with a volume of 100 cubic centimeters

C. A 100 g object with a volume of 100 cubic centimeters

D. A 400 g object with a volume of 50 cubic centimeters

2. Rank the following in terms of increasing pressure:

A. A 10 kg object distributed on a square surface with dimensions 10 cm by 10 cm

B. A 20 kg object distributed on a square surface with dimensions 10 cm by 10 cm

C. A 30 kg object distributed on a square surface with dimensions 20 cm by 20 cm

D. A 40 kg object distributed on a square surface with dimensions 30 cm by 30 cm

3. Consider four blocks with identical volumes placed in water as shown below.

Which block has the smallest buoyant force on the water and why?

4. Consider four blocks with identical volumes placed in water as shown below. Rank the blocks in terms of increasing density:

5. Consider a tall container filled with water. There are three holes of equal size in the side of the container as shown on the diagram below. The red arrows indicate the velocity of the water as it flows out of the holes.

Why is the velocity larger for the bottom stream of water?

6. On a quiet day, the atmospheric pressure results in a force of about 10,0000 N on a window pane with an area of 1 square meter.

a. Why does this large force not shatter the window?

b. How will this change if a strong wind is blowing across the window pane?

7. Explain why locations near a large body of water generally have higher average temperatures in the winter and lower average temperatures in the summer.

8. A mirror cleaned with an alcohol solution is slightly colder right after it is cleaned. Why?

9. To keep the canned food from freezing in a storage cellar, a farmer places a tub of water in the cellar. Explain.

10. Why is it safe to stick your tongue on a wooden pole on a cold winter day, but not on a metal pole?

11. You are in the frozen food section of the grocery store and you notice that your hand gets cold when you place it on the glass windows of the display cases. Your friend says this is because coolness is transferred from the display case to your hand. What do you think?

12. Why are good conductors of electricity usually also good conductors of heat?

13. Why is it cooler to wear a white shirt than a black shirt on a hot, sunny day?

14. On a hot day in your hot kitchen, you decide to work with the refrigerator door open in an attempt to have the refrigerator cool the room. Which of the following best describes the result of this decision? Explain your answer.

A. It will cool the room very effectively

B. It will cool the room, but inefficiently

C. It will not change anything

D. It will actually warm the room

The remaining questions are multiple-choice questions:

15. Consider standing on a bathroom scale. How will the reading of the scale compare if you stand on one leg instead of two?

A. It will show less

B. It will show more

C. It will show the same

16. Consider standing on a bathroom scale. What does a bathroom scale show?

A. Mass

B. Density

C. Force

D. Pressure

17. Which has the greater density, a lake full of water or a cup full of lake water?

A. The water in the cup

B. The water in the lake

C. Both have the same density

18. The largest extremes in temperature are usually experienced _____.

A. On islands

B. In japan

C. In coastal cities such as boston

D. In the middle of the continents

E. Near the oceans

19. The fact that desert sand is very hot in the day and very cold at night is evidence that sand has a _____.

A. High specific heat

B. High density

C. Low specific heat

D. Low density

20. Which of the following has the highest specific heat?

A. Water

B. Wood

C. Rock

D. Concrete

21. What happens to the volume of a 1 kg of water when it is heated from 0oC to 2oC?

A. Increases

B. Decreases

C. Stays the same

22. What happens to the volume of a 1 kg of water when it is heated from 4oC to 6oC?

A. Increases

B. Decreases

C. Stays the same

23. Heat transfer by conduction in metals occurs when:

A. Atoms give off energy in the form of radiation

B. A large number of atoms move from one place to another

C. Electrons collide with other electrons and with atoms.

D. Electromagnetic waves travel though space to heat up an object.

24. Heat transfer by convection occurs when:

A. Atoms give off energy in the form of radiation

B. A large number of atoms move from one place to another

C. Electrons collide with other electrons and with atoms.

D. Electromagnetic waves travel though space to heat up an object.

25. What produces the cooling effect inside a refrigerator?

A. A compression making the refrigeration gas condense to a liquid.

B. An electric motor turning electrical energy into thermal energy.

C. Excellent insulation.

D. The evaporation of the refrigeration liquid.

Week 4 assignment

Electricity and Magnetism Exercises

PHY-102: Electricity and Magnetism Exercises

Complete the following exercises.

1. Why are good conductors of heat also good conductors of electricity?

2. What is the difference between a good conductor and a good insulator?

3. Which of the following are conductors? (Select all that apply)

A. Wood

B. Copper

C. Gold

D. Plastic

E. Distilled water

4. Which of the following are insulators? (Select all that apply)

A. Wood

B. Copper

C. Gold

D. Plastic

E. Distilled water

5. A nail contains trillions of electrons. Given that electrons repel from each other, why do they not then fly out of the nail?

6. How do the number of electrons flowing into a light bulb compare to the number of electrons flowing out of it?

7. A light bulb connected to a 9-V battery has a current of 1.5 A flowing.

a. Find the resistance of the light bulb (in ohms)

b. Find the power drawn by the light bulb (in W)

8. Consider three identical light bulbs connected as shown in the circuit below.

a. Which light bulb(s) will be brightest? Explain.

b. What will happen to B and C if light bulb A is removed? Explain.

c. What will happen to A and B if light bulb C is removed? Explain.

9. Rank the following from smallest current to largest current.

A. A 1200W microwave connected to 110V outlet.

B. A 1500W water heater connected to 220V outlet.

C. A 100W light bulb connected to 110V outlet.

D. A 2000W oven connected to a 220V outlet.

E. A 40W Light bulb connected to a 12V battery.

10. Your friend says an appliance uses energy. How would you correct his statement?

11. Describe the differences and similarities between an electromotor and a generator.

12. Your friend with great excitement tells you about his newest idea to solve the energy crisis: He wants to use an electromotor to drive a generator and then use part of the electric power generated to power the electromotor while using the rest to power his home. What would you tell him?

13. Why is a paper clip attracted to a magnet, while is pencil is not?

14. A loop of wire embedded in the road at an intersection can be used to trigger a traffic signal. This is an application of magnetic induction. Explain.

The remaining questions are multiple-choice questions:

15. Two like charges:

A. Attract each other

B. Repel each other

C. Must be neutrons

D. Neutralize each other

16. When a plastic rod is rubbed with fur, the rod will become negatively charged. Which of the following best explains how this happens?

A. Electrons are transferred from the plastic rod to the fur.

B. Electrons are transferred from the fur to the plastic rod.

C. Negative charges are created on the plastic rod.

D. Positive charges are removed from the plastic rod.

17. What is characteristic of a good insulator?

A. Electrons are usually not moving at all.

B. Electrons are free to move around.

C. Electrons are semi-free to move around.

D. Electrons are tightly bound to the nuclei.

18. In a solid conductor such as a metal, what is the cause of an electric current?

A. A flow of positive and negative charges.

B. A flow of positive charges only.

C. A flow of negative charges only.

D. A flow of protons.

E. A flow of neutrons.

19. How does the resistance of a 100W light bulb compare to the resistance of a 60W light bulb?

A. The 100W light bulb has a higher resistance than the 60W light bulb.

B. The 100W light bulb has a lower resistance than the 60W light bulb.

C. The 100W light bulb has the same resistance as the 60W light bulb.

D. Not enough information to tell.

20. Consider the five circuits in the diagram below.

In which of the circuits will the light bulb light up?

21. What causes an electric field?

A. A moving change only.

B. A stationary charge only.

C. Any charge, moving or stationary.

D. A stationary magnet.

22. What causes a magnetic field?

A. A moving change only.

B. A stationary charge only.

C. Any charge, moving or stationary.

23. What does a step-up transformer do?

A. It steps up the energy.

B. It steps up the power.

C. It steps up the voltage.

D. It steps up the current.

24. Which of the following is true for a generator?

A. It transforms thermal energy to electrical energy.

B. It transforms mechanical energy into electrical energy.

C. It transforms electrical energy into mechanical energy.

D. It transforms solar energy into electrical energy.

25. Which of the following is true for an electromotor?

A. It transforms thermal energy to electrical energy.

B. It transforms mechanical energy into electrical energy.

C. It transforms electrical energy into mechanical energy.

D. It transforms electrical energy into potential energy.

Week 5 assignment

Wave, Sound, and Light Exercises

PHY-102: Wave, Sound, and Light Exercises

Complete the following exercises.

1. What is the source of all waves?

2. A water wave vibrates up and down four times each second, the distance between two successive crests is 5 meters, and the height from the lowest part to the highest part of the wave is 2 meters.

a. What is the frequency of the wave in hertz?

b. What is the period of the wave in seconds?

c. What is the speed of the wave in meters per seconds?

d. What is the amplitude of the wave in meters?

3. When you sit in the stands at a baseball stadium, you will hear the crack of the bat a short time after you see the batter hit the ball. Explain.

4. Why is the moon sometimes described as silent?

5. You are hiking in a canyon and you notice an echo. You decide to let put a yell and notice it took 2 seconds before you heard the echo of your yell. How far away is the canyon wall that reflected your yell?

6. Explain how the Doppler effect is used by the police to measure the speed of a car.

7. The light from the sun has higher frequencies from one side of the sun than from the other side. What does that tell you about the sun?

8. What is the source of all electromagnetic waves?

9. Why is the lettering on the front of an ambulance “backwards” (see figure below)?

10. What do radio waves, microwaves, light, and x-rays have in common?

11. Rank the following electromagnetic waves in order of increasing frequency.

A. Microwaves

B. Radio waves

C. Ultraviolet radiation

D. Visible light

E. X-rays

F. Infrared radiation

12. During a lunar eclipse the moon is in the shadow of the Earth. Why does the moon have a faint red color during the eclipse?

13. The distance from the sun to the Earth is 1.5 x 1011 m. How long does it take for light from the sun to reach the earth? Give your answer in seconds.

14. Why are polarized sunglasses particularly effective in reducing glare?

15. Match the following colored objects with the way in which the colors are produced.

1) Red rose

2) Rainbow

3) Oil film

4) Peacock feather

5) Blue sky

A. Scattering

B. Refraction

C. Diffraction

D. Interference

E. Selective reflection

The remaining questions are multiple-choice questions:

16. If the frequency of a vibration is doubled, what happens to the period?

A. The period is doubled.

B. The period remains the same.

C. The period is reduced to one-quarter.

D. The period is reduced to one-half

E. The period is quadrupled.

17. What is the distance between two successive crests on a transverse wave called?

A. Wavelength

B. Period

C. Amplitude

D. Frequency

E. Compression

18. Noise-cancelling earphones use which of the following phenomena?

A. Frequency

B. Constructive interference

C. Destructive interference

D. Resonance

E. Beats

19. If the sun were to suddenly "turn off’, we would not know about it for about 8 minutes. Why?

A. It would take about 8 minutes to realize what happened because of the darkness.

B. It takes about 8 minutes for the sun to "power down".

C. It takes about 8 minutes for Earth to spin around so we can see the sun.

D. It takes about 8 minutes for the light to travel from the sun to Earth.

20. If the atmosphere was much thicker than it is now, how would the sun appear?

A. The sun would appear the same.

B. The sun would appear blue-violet.

C. The sun would appear green-blue.

D. The sun would appear red-orange.

E. The sun would appear yellow-green.

21. If you dip your finger in a tub of water at a constant rate, concentric circular waves with a constant spacing (wavelength) will form. If you double the frequency at which you dip your finger, what will happen to the wavelength?

A. The wavelength is reduced to one-quarter.

B. The wavelength is reduced to one-half.

C. The wavelength is quadrupled.

D. The wavelength is doubled.

E. The wavelength remains the same.

22. If you hear the clap of a thunder 5 seconds after seeing the flash of lightning, how far away from you did the lightning strike?

A. About 5 miles

B. About 5 kilometers

C. About 1 mile

D. About 1 kilometer

23. What are the three paint colors used for color subtraction?

A. Red, yellow, and blue

B. Red, green, and blue

C. Orange, purple, and green

D. Magenta, green, and yellow

E. Magenta, cyan, and yellow

24. If you shine a beam of red light and a beam of green light on the same area of a screen, what color will you see on the screen?

A. Red

B. Green

C. White

D. Yellow

E. Cyan

F. Magenta

25. If you mix equal amounts of cyan pigments and magenta pigments on a sheet of white paper, what color will you see on the paper?

A. Red

B. Blue

C. Black

D. Yellow

E. Cyan

F. Magenta

Week 6 assignment

Atomic and Nuclear Physics Exercises

PHY-102: Atomic and Nuclear Physics Exercises

Complete the following exercises.

1. Rank the following in order of increased size?

A. Proton

B. Nucleus

C. Electron

D. Atom

2. Match the following terms:

1. Mass number

2. Isotopes

3. Nitrogen

4. Atomic number

A. The number of protons in the nucleus of an atom.

B. The number of protons and neutrons in the nucleus of an atom.

C. The name of the element with atomic number 7.

D. Atoms with the same number of protons, but different number of neutrons.

3. Your friend says your body is made up of more than 99.9999% empty space. What do you think?

4. An isotope has 46 electrons, 60 neutrons, and 46 protons. Name the isotope.

5. Find the approximate atomic mass of a water molecule (H2O). Give your answer in atomic mass units rounded to the nearest whole number.

6. Find the approximate atomic mass of carbon dioxide. Give your answer in atomic mass units rounded to the nearest whole number.

7. Consider chlorine-37.

a. How many protons are there in the nucleus of Cl-37?

b. How many neutrons are there in the nucleus of Cl-37?

8. Why is it impossible to see an individual atom in an optical microscope?

9. Compare alpha, beta, and gamma radiation.

10. Your friend says the helium in your birthday helium balloon comes from radioactive decays. What is your response?

11. Radium-214 decays in an alpha decay.

a. What is the mass number of the daughter isotope?

b. What is the atomic number of the daughter isotope?

c. What element is the daughter product?

12. Iodine-131 has a half-life of 8 days. How many days will it take before 32mg of Iodine-131 has decayed to 1mg?

13. Carbon-14 has a half-life of 5,730 years. If an archaeological sample has only one-fourth of the radioactivity of a similar sample from today, how old is the archaeological sample? Give your answer in years.

14. Can the Carbon-14 isotope be used to date a stone tablet? Explain your answer.

15. Is it feasible to make a car engine powered by nuclear fission? How can energy from nuclear fission be used to power cars indirectly?

The remaining questions are multiple-choice questions:

16. Consider an atom. Which contributes most to the size of the atom?

A. The electrons

B. The neutrons

C. The protons

D. Both the neutrons and the protons

17. Consider an atom. Which contributes most to the mass of the atom?

A. The electrons

B. The neutrons

C. The protons

D. Both the neutrons and the protons

18. What is the name of the center of the atom?

A. Nucleus

B. Protons

C. Neutrons

D. Electrons

E. Ions

19. What makes an element distinct?

A. The number of electrons

B. The number of neutrons

C. The number of protons

D. The number of ions

E. The number of nucleons

20. What is different between two isotopes of the same element?

A. The number of electrons

B. The number of neutrons

C. The number of protons

D. The number of ions

E. The number of nucleons

21. When does a nuclear fission reaction occur?

A. When a nucleus is cut in two using a really sharp knife.

B. When two nuclei collide and combine to one.

C. When a large nucleus spontaneously is divided for no apparent reason.

D. When the electric forces within the nucleus are stronger than the nuclear forces.

22. Which processes release the energy in the sun?

A. Combustion reactions

B. Gravitational forces

C. Fusion processes

D. Fission processes

E. Electrical discharges

23. Which processes release the energy in the nuclear reactors used in power plants?

A. Combustion reactions

B. Gravitational forces

C. Fusion processes

D. Fission processes

E. Electrical discharges

24. Where does the energy released in nuclear reactions come from?

A. The mass of the fuel

B. Water

C. The sun

D. The Earth

Week 7 assignment

Chemistry Exercises

PHY-102: Chemistry Exercises

Complete the following exercises.

1. Which of the following are physical properties? (Select all that apply)

A. Color

B. Hardness

C. Density

D. Flammability

E. Conductivity

F. Reactivity with other materials

2. Which of the following describe a physical change? (Select all that apply)

A. Photosynthesis

B. Evaporation of alcohol when a table is wiped with an alcohol swab

C. Burning of firewood

D. Rusting of iron

E. Breaking a glass

F. Melting ice

3. Which of the following are chemical properties? (Select all that apply)

A. Texture

B. Toxicity

C. Conductivity

D. Density

E. Flammability

F. Reactivity with other materials

4. Which of the following describe a chemical change? (Select all that apply)

A. Melting of ice

B. Evaporation of alcohol when a table is wiped with an alcohol swab

C. Burning of firewood

D. Rusting of iron

E. Breaking a glass

F. Cooking an egg

5. Match the following substances with the best classification:

1. Magnesium

2. Salt water

3. Blood

4. Carbon dioxide

5. Soil sample

A. Compound

B. Element

C. Solution

D. Heterogeneous mixture

E. Suspension

6. Which of the following illustrations best illustrate an element, a compound, and a mixture. Provide an explanation for your choices.

.

7. Describe a method to separate the substances in a solution.

8. Distinguish between a saturated and an unsaturated solution.

9. Match the following:

1. Sodium chloride, NaCl

2. Oxygen, O2

3. Methane, CH4

4. Lithium

5. Air

A. Element

B. Solution

C. Diatomic gas

D. Ionic compound

E. Covalent compound

10. Electron dot diagrams are a way to illustrate the number of valence electrons for an element. The symbol for the element is surrounded by a dot for each valence electron. Match the following electron dot diagrams with an element:

1. Electron dot diagram #1

2. Electron dot diagram #2

3. Electron dot diagram #3

4. Electron dot diagram #4

A. Sodium, Na

B. Aluminum, Al

C. Flourine, F

D. Nitrogen, N

11. For the following questions consider a compound of calcium and chlorine.

a. What type of bond do calcium and chlorine form?

b. Describe how this bond forms.

c. What is the chemical formula for the compound? Explain.

12. For the following questions consider a water molecule, H2O.

a. What type of bond is formed between the oxygen and the hydrogen atoms?

b. Describe how these bonds form.

c. Explain why there are two hydrogen atoms for each oxygen atom.

13. For the following questions consider a piece of copper wire.

a. What type of bond is formed between the copper atoms?

b. Describe how these bonds form.

c. Explain why copper is a good electrical conductor.

14. Explain why food stays fresh longer when kept in the refrigerator.

15. In the stratospheric level of the atmosphere there is a high level of ozone, O3. This ozone absorbs much of the ultraviolet light from the sun and thus protects life in the surface of the Earth from harmful high level of ultraviolet radiation. Explain why one chlorofluorocarbon (CFC) molecule in the ozone layer is capable of breaking down hundreds and even thousands of ozone molecules?

16. Balance the following chemical reaction by placing the proper coefficients in front of each reactant and in front of the product.

a. What is the coefficient on line (a)?

b. What is the coefficient on line (b)?

c. What is the coefficient on line (c)?

17. Acetylene gas (C2H2) burns in the oxyacetylene torch for welding. Balance the chemical reaction by placing the proper coefficients in front of each reactant and each product.

a. What is the coefficient on line (a)?

b. What is the coefficient on line (b)?

c. What is the coefficient on line (c)?

d. What is the coefficient on line (c)?

The remaining questions are multiple-choice questions:

18. What is a substance made up of only one type of atom called?

A. An element

B. A mixture

C. A solution

D. A compound

E. A nucleus

19. Which of the following is a solution?

A. Table salt

B. Nitrogen

C. A vinegar and oil salad dressing

D. Copper wire

E. A 14 karat gold ring

20. Which of the following is a heterogeneous mixture?

A. Table salt

B. Air

C. A vinegar and oil salad dressing

D. Steel

E. A 14 karat gold ring

21. On a container of chicken broth you notice the instructions to “shake well before serving.” Which of the following best describes the chicken broth?

A. A solution

B. An element

C. A compound

D. A suspension

E. A pure substance

22. The formation of an ionic bond involves:

A. A transfer of electrons

B. A transfer of protons

C. A transfer of neutrons

D. A sharing of electrons

E. A sharing of protons

23. Which of the following is the chemical formula for the ionic compound magnesium nitride?

A. MgN

B. Mg2N

C. Mg2N3

D. Mg3N2

E. MgN2

24. Which of the following is correct about a molecule of carbon trichloride?

A. It has one carbon atom for each chloride atom.

B. It has three chloride atoms for each carbon atom.

C. It has three carbon atoms for each chloride atom.

D. It is a mixture of equal parts carbon and trichloride.

E. It is a solution of carbon in chlorine.

25. What is the term for the substances that undergo a change in a chemical reaction?

A. Solutions

B. Products

C. Solvents

D. Catalysts

E. Reactants

26. When methane (CH4) burns it combines with oxygen and forms carbon dioxide and water. Which of the following is the balanced chemical reaction for the burning of methane?

A. CH4 + O2 ? CO2 + H2O

B. 3 CH4 + 6 O2 ? 3 CO2 + 6 H2O

C. 2 CH4 + 3 O2 ? CO2 + 4 H2O

D. CH4 + 3 O2 ? 2 CO2 + 2 H2O

E. CH4 + 2 O2 ? CO2 + 2 H2O

Week 7 assignment

Application Paper Task 2

Using the work you completed in Task 1, and referring to Task 2 in "Application Paper Guidelines," write your application paper, which should be 750-1,000 words.

Include the following:

An introduction.

A minimum of three body paragraphs, each describing some aspect of the application. Make sure to include how each aspect relates to one or more concepts from this course. You may choose to include the history of the application as one paragraph.

A concluding paragraph.

You must use at least two scholarly sources in addition to the textbook as references to support your paper. Make sure to properly cite your sources.

Prepare this assignment according to the guidelines found in the GCU Style Guide, located in the Student Success Center.

This assignment uses a rubric. Please review the rubric prior to beginning the assignment to become familiar with the expectations for successful completion.

You are required to submit this assignment to Turnitin. Please refer to the directions in the Student Success Center.