1. How might a lesson plan differ between elementary earth science and high school computer science?

1. How might a lesson plan differ between elementary earth science and high school computer science?

Elementary earth science The basic concept are more important here, … Read More...
Lab #02 Relationship between distance & illumination As engineers, we deal with the effects of light on many projects. The first key to working with light is understanding how the light waves propagate. Once we understand light waves, we will test a manufacturers claim that lower wattage fluorescent bulbs output the same quantity of light as incandescent bulbs. This experiment is designed for you to work as a class to collect data regarding a given light source and then, working within your individual group, attempt to determine the re-lationship(s) between the measured parameter (lux) and the distance (meter) from the source. Measure and record data, in the manner described below, as a class. Work on your so-lutions as a group of 2-3. Your first task is to develop a mathematical formula, or a simple relationship that predicts the amount of lux that can be expected at a given distance from the light source. Purpose: The purpose of this assignment is to accomplish the following goals: • Gain experience collecting data in a controlled, systematic fashion. • Practice working as a group to infer relationships between variables from your collected data. • Use the data you collect to draw conclusions. In this case, to evaluate the hypothesis that the fluorescent and incandescent bulb output the same quantity of light. • Become accustomed to working in teams (note, teamwork often requires individual work as well). • Learn to balance workload across your team. (Individuals will be responsible for certain tasks, and ensure they are performed on time and to the desired quality level. • Demonstrate to me what your group’s attention to detail is, as well as your ability to construct a written explanation of work. Problem: What effect does distance have on the lux, intensity, emitted from a light source and are the 5 light bulbs producing the same intensity light? Use the rough protocol listed below and the data sheet provided to collect your data, then complete the assignment outlined below. 1. Set up a light source on one of the lab tables. 2. Using the illumination meter, measure the lux at 0.5 meter increments from the source back to 3 meters from the source. • Be sure the keep the meter perpendicular to the horizontal line from the source at all times! 3. Record your measurements on your data sheets. 4. Measurements should be taken in a random order 5. Repeat the experiment 3 times, using different people and a different order of collection and different colors. Assignment Requirements: 1. Create the appropriate graph(s) to express the data you have collected. Your report must, at the minimum, contain the following: a. An X-Y Scatter plot showing the data from both bulbs. The chart should follow all conventions taught in lecture, and display the equation for the trend-line you choose. b. A column or bar chart of your choosing showing the difference, if any, between the two bulbs. 2. Write an introduction, briefly explaining what you are accomplishing with this exper-iment. 3. Create a hierarchal outline that states, step by step, each activity that was performed to conduct the experiment and analyze the experimental data. 4. Anova analysis for data collected 5. Write a verbal explanation of what each of the charts from requirement #1 are showing. 6. Include, at the end of the document, a summary of all the tasks required to complete the assignment, including the 5 listed above, and which member or members of the group were principally responsible for completing those tasks. This should be in the form of a simple list. 7. Write at least 3 possible applications of the experiment with detailed explanation. DUE DATE: This assignment is to be completed and turned in at the beginning of your laboratory meeting during the week of 18th February Microsoft office package: Excel: Insert, page layout tab functions, Mean, standard deviation, graph functions

Lab #02 Relationship between distance & illumination As engineers, we deal with the effects of light on many projects. The first key to working with light is understanding how the light waves propagate. Once we understand light waves, we will test a manufacturers claim that lower wattage fluorescent bulbs output the same quantity of light as incandescent bulbs. This experiment is designed for you to work as a class to collect data regarding a given light source and then, working within your individual group, attempt to determine the re-lationship(s) between the measured parameter (lux) and the distance (meter) from the source. Measure and record data, in the manner described below, as a class. Work on your so-lutions as a group of 2-3. Your first task is to develop a mathematical formula, or a simple relationship that predicts the amount of lux that can be expected at a given distance from the light source. Purpose: The purpose of this assignment is to accomplish the following goals: • Gain experience collecting data in a controlled, systematic fashion. • Practice working as a group to infer relationships between variables from your collected data. • Use the data you collect to draw conclusions. In this case, to evaluate the hypothesis that the fluorescent and incandescent bulb output the same quantity of light. • Become accustomed to working in teams (note, teamwork often requires individual work as well). • Learn to balance workload across your team. (Individuals will be responsible for certain tasks, and ensure they are performed on time and to the desired quality level. • Demonstrate to me what your group’s attention to detail is, as well as your ability to construct a written explanation of work. Problem: What effect does distance have on the lux, intensity, emitted from a light source and are the 5 light bulbs producing the same intensity light? Use the rough protocol listed below and the data sheet provided to collect your data, then complete the assignment outlined below. 1. Set up a light source on one of the lab tables. 2. Using the illumination meter, measure the lux at 0.5 meter increments from the source back to 3 meters from the source. • Be sure the keep the meter perpendicular to the horizontal line from the source at all times! 3. Record your measurements on your data sheets. 4. Measurements should be taken in a random order 5. Repeat the experiment 3 times, using different people and a different order of collection and different colors. Assignment Requirements: 1. Create the appropriate graph(s) to express the data you have collected. Your report must, at the minimum, contain the following: a. An X-Y Scatter plot showing the data from both bulbs. The chart should follow all conventions taught in lecture, and display the equation for the trend-line you choose. b. A column or bar chart of your choosing showing the difference, if any, between the two bulbs. 2. Write an introduction, briefly explaining what you are accomplishing with this exper-iment. 3. Create a hierarchal outline that states, step by step, each activity that was performed to conduct the experiment and analyze the experimental data. 4. Anova analysis for data collected 5. Write a verbal explanation of what each of the charts from requirement #1 are showing. 6. Include, at the end of the document, a summary of all the tasks required to complete the assignment, including the 5 listed above, and which member or members of the group were principally responsible for completing those tasks. This should be in the form of a simple list. 7. Write at least 3 possible applications of the experiment with detailed explanation. DUE DATE: This assignment is to be completed and turned in at the beginning of your laboratory meeting during the week of 18th February Microsoft office package: Excel: Insert, page layout tab functions, Mean, standard deviation, graph functions

info@checkyourstudy.com Lab #02 Relationship between distance & illumination As engineers, … Read More...
Please answer the following questions: You’re a leader in your company or organization (based on your concentration area). You need to make a decision on whether your company or organization shall start a new initiative. To make an informed decision, you plan to do some research. 1. Suppose that you have a list of 2700 employees in your company or organization, please describe in detail how you would use the systematic sampling method to select 30 participants for your study. 2. There are fewer male employees in your company. If you want to be sure these male employees are equally represented in your study, what sampling procedure should you use? Please describe in detail what you would do. 3. Suppose that you selected 30 employees (participants) for your study, you gave them a survey on their attitude towards the possible new initiative. What are some possible threats to the internal validity of this design? 4. The survey results indicated that your employees have mixed attitudes towards the new initiative. To be on the safe side, you would like to run a pilot study to examine the impact of the new initiative on employees’ productivity. Please describe in detail how you could use a true experimental design to address this research question. 5. Which statistical procedure would you use to analyze the quantitative data you collected from your pilot study (with a true experimental design) to address your research question? “

Please answer the following questions: You’re a leader in your company or organization (based on your concentration area). You need to make a decision on whether your company or organization shall start a new initiative. To make an informed decision, you plan to do some research. 1. Suppose that you have a list of 2700 employees in your company or organization, please describe in detail how you would use the systematic sampling method to select 30 participants for your study. 2. There are fewer male employees in your company. If you want to be sure these male employees are equally represented in your study, what sampling procedure should you use? Please describe in detail what you would do. 3. Suppose that you selected 30 employees (participants) for your study, you gave them a survey on their attitude towards the possible new initiative. What are some possible threats to the internal validity of this design? 4. The survey results indicated that your employees have mixed attitudes towards the new initiative. To be on the safe side, you would like to run a pilot study to examine the impact of the new initiative on employees’ productivity. Please describe in detail how you could use a true experimental design to address this research question. 5. Which statistical procedure would you use to analyze the quantitative data you collected from your pilot study (with a true experimental design) to address your research question? “

Suppose that you have a list of 2700 employees in … Read More...
Chapter 6 Practice Problems (Practice – no credit) Due: 11:59pm on Friday, March 14, 2014 You will receive no credit for items you complete after the assignment is due. Grading Policy PSS 6.1 Equilibrium Problems Learning Goal: To practice Problem-Solving Strategy 6.1 for equilibrium problems. A pair of students are lifting a heavy trunk on move-in day. Using two ropes tied to a small ring at the center of the top of the trunk, they pull the trunk straight up at a constant velocity . Each rope makes an angle with respect to the vertical. The gravitational force acting on the trunk has magnitude . Find the tension in each rope. PROBLEM-SOLVING STRATEGY 6.1 Equilibrium problems MODEL: Make simplifying assumptions. VISUALIZE: Establish a coordinate system, define symbols, and identify what the problem is asking you to find. This is the process of translating words into symbols. Identify all forces acting on the object, and show them on a free-body diagram. These elements form the pictorial representation of the problem. SOLVE: The mathematical representation is based on Newton’s first law: . The vector sum of the forces is found directly from the free-body diagram. v  FG T F  = = net i F  i 0 ASSESS: Check if your result has the correct units, is reasonable, and answers the question. Model The trunk is moving at a constant velocity. This means that you can model it as a particle in dynamic equilibrium and apply the strategy above. Furthermore, you can ignore the masses of the ropes and the ring because it is reasonable to assume that their combined weight is much less than the weight of the trunk. Visualize Part A The most convenient coordinate system for this problem is one in which the y axis is vertical and the ropes both lie in the xy plane, as shown below. Identify the forces acting on the trunk, and then draw a free-body diagram of the trunk in the diagram below. The black dot represents the trunk as it is lifted by the students. Draw the vectors starting at the black dot. The location and orientation of the vectors will be graded. The length of the vectors will not be graded. ANSWER: Part B This question will be shown after you complete previous question(s). Solve Part C This question will be shown after you complete previous question(s). Assess Part D This question will be shown after you complete previous question(s). A Gymnast on a Rope A gymnast of mass 70.0 hangs from a vertical rope attached to the ceiling. You can ignore the weight of the rope and assume that the rope does not stretch. Use the value for the acceleration of gravity. Part A Calculate the tension in the rope if the gymnast hangs motionless on the rope. Express your answer in newtons. You did not open hints for this part. ANSWER: Part B Calculate the tension in the rope if the gymnast climbs the rope at a constant rate. Express your answer in newtons. You did not open hints for this part. kg 9.81m/s2 T T = N T ANSWER: Part C Calculate the tension in the rope if the gymnast climbs up the rope with an upward acceleration of magnitude 1.10 . Express your answer in newtons. You did not open hints for this part. ANSWER: Part D Calculate the tension in the rope if the gymnast slides down the rope with a downward acceleration of magnitude 1.10 . Express your answer in newtons. You did not open hints for this part. ANSWER: T = N T m/s2 T = N T m/s2 T = N Applying Newton’s 2nd Law Learning Goal: To learn a systematic approach to solving Newton’s 2nd law problems using a simple example. Once you have decided to solve a problem using Newton’s 2nd law, there are steps that will lead you to a solution. One such prescription is the following: Visualize the problem and identify special cases. Isolate each body and draw the forces acting on it. Choose a coordinate system for each body. Apply Newton’s 2nd law to each body. Write equations for the constraints and other given information. Solve the resulting equations symbolically. Check that your answer has the correct dimensions and satisfies special cases. If numbers are given in the problem, plug them in and check that the answer makes sense. Think about generalizations or simplfications of the problem. As an example, we will apply this procedure to find the acceleration of a block of mass that is pulled up a frictionless plane inclined at angle with respect to the horizontal by a perfect string that passes over a perfect pulley to a block of mass that is hanging vertically. Visualize the problem and identify special cases First examine the problem by drawing a picture and visualizing the motion. Apply Newton’s 2nd law, , to each body in your mind. Don’t worry about which quantities are given. Think about the forces on each body: How are these consistent with the direction of the acceleration for that body? Can you think of any special cases that you can solve quickly now and use to test your understanding later? m2  m1 F = ma One special case in this problem is if , in which case block 1 would simply fall freely under the acceleration of gravity: . Part A Consider another special case in which the inclined plane is vertical ( ). In this case, for what value of would the acceleration of the two blocks be equal to zero? Express your answer in terms of some or all of the variables and . ANSWER: Isolate each body and draw the forces acting on it A force diagram should include only real forces that act on the body and satisfy Newton’s 3rd law. One way to check if the forces are real is to detrmine whether they are part of a Newton’s 3rd law pair, that is, whether they result from a physical interaction that also causes an opposite force on some other body, which may not be part of the problem. Do not decompose the forces into components, and do not include resultant forces that are combinations of other real forces like centripetal force or fictitious forces like the “centrifugal” force. Assign each force a symbol, but don’t start to solve the problem at this point. Part B Which of the four drawings is a correct force diagram for this problem? = 0 m2 = −g a 1 j ^  = /2 m1 m2 g m1 = ANSWER: Choose a coordinate system for each body Newton’s 2nd law, , is a vector equation. To add or subtract vectors it is often easiest to decompose each vector into components. Whereas a particular set of vector components is only valid in a particular coordinate system, the vector equality holds in any coordinate system, giving you freedom to pick a coordinate system that most simplifies the equations that result from the component equations. It’s generally best to pick a coordinate system where the acceleration of the system lies directly on one of the coordinate axes. If there is no acceleration, then pick a coordinate system with as many unknowns as possible along the coordinate axes. Vectors that lie along the axes appear in only one of the equations for each component, rather than in two equations with trigonometric prefactors. Note that it is sometimes advantageous to use different coordinate systems for each body in the problem. In this problem, you should use Cartesian coordinates and your axes should be stationary with respect to the inclined plane. Part C Given the criteria just described, what orientation of the coordinate axes would be best to use in this problem? In the answer options, “tilted” means with the x axis oriented parallel to the plane (i.e., at angle to the horizontal), and “level” means with the x axis horizontal. ANSWER: Apply Newton’s 2nd law to each body a b c d F  = ma  tilted for both block 1 and block 2 tilted for block 1 and level for block 2 level for block 1 and tilted for block 2 level for both block 1 and block 2 Part D What is , the sum of the x components of the forces acting on block 2? Take forces acting up the incline to be positive. Express your answer in terms of some or all of the variables tension , , the magnitude of the acceleration of gravity , and . You did not open hints for this part. ANSWER: Part E This question will be shown after you complete previous question(s). Part F This question will be shown after you complete previous question(s). Part G This question will be shown after you complete previous question(s). Lifting a Bucket A 6- bucket of water is being pulled straight up by a string at a constant speed. F2x T m2 g  m2a2x =F2x = kg Part A What is the tension in the rope? ANSWER: Part B This question will be shown after you complete previous question(s). Part C This question will be shown after you complete previous question(s). Friction Force on a Dancer on a Drawbridge A dancer is standing on one leg on a drawbridge that is about to open. The coefficients of static and kinetic friction between the drawbridge and the dancer’s foot are and , respectively. represents the normal force exerted on the dancer by the bridge, and represents the gravitational force exerted on the dancer, as shown in the drawing . For all the questions, we can assume that the bridge is a perfectly flat surface and lacks the curvature characteristic of most bridges. about 42 about 60 about 78 0 because the bucket has no acceleration. N N N N μs μk n F  g Part A Before the drawbridge starts to open, it is perfectly level with the ground. The dancer is standing still on one leg. What is the x component of the friction force, ? Express your answer in terms of some or all of the variables , , and/or . You did not open hints for this part. ANSWER: Part B The drawbridge then starts to rise and the dancer continues to stand on one leg. The drawbridge stops just at the point where the dancer is on the verge of slipping. What is the magnitude of the frictional force now? Express your answer in terms of some or all of the variables , , and/or . The angle should not appear in your answer. F  f n μs μk Ff = Ff n μs μk  You did not open hints for this part. ANSWER: Part C Then, because the bridge is old and poorly designed, it falls a little bit and then jerks. This causes the person to start to slide down the bridge at a constant speed. What is the magnitude of the frictional force now? Express your answer in terms of some or all of the variables , , and/or . The angle should not appear in your answer. ANSWER: Part D The bridge starts to come back down again. The dancer stops sliding. However, again because of the age and design of the bridge it never makes it all the way down; rather it stops half a meter short. This half a meter corresponds to an angle degree (see the diagram, which has the angle exaggerated). What is the force of friction now? Express your answer in terms of some or all of the variables , , and . Ff = Ff n μs μk  Ff =   1 Ff  n Fg You did not open hints for this part. ANSWER: Kinetic Friction Ranking Task Below are eight crates of different mass. The crates are attached to massless ropes, as indicated in the picture, where the ropes are marked by letters. Each crate is being pulled to the right at the same constant speed. The coefficient of kinetic friction between each crate and the surface on which it slides is the same for all eight crates. Ff = Part A Rank the ropes on the basis of the force each exerts on the crate immediately to its left. Rank from largest to smallest. To rank items as equivalent, overlap them. You did not open hints for this part. ANSWER: Pushing a Block Learning Goal: To understand kinetic and static friction. A block of mass lies on a horizontal table. The coefficient of static friction between the block and the table is . The coefficient of kinetic friction is , with . Part A m μs μk μk < μs If the block is at rest (and the only forces acting on the block are the force due to gravity and the normal force from the table), what is the magnitude of the force due to friction? You did not open hints for this part. ANSWER: Part B Suppose you want to move the block, but you want to push it with the least force possible to get it moving. With what force must you be pushing the block just before the block begins to move? Express the magnitude of in terms of some or all the variables , , and , as well as the acceleration due to gravity . You did not open hints for this part. ANSWER: Part C Suppose you push horizontally with half the force needed to just make the block move. What is the magnitude of the friction force? Express your answer in terms of some or all of the variables , , and , as well as the acceleration due to gravity . You did not open hints for this part. Ffriction = F F μs μk m g F = μs μk m g ANSWER: Part D Suppose you push horizontally with precisely enough force to make the block start to move, and you continue to apply the same amount of force even after it starts moving. Find the acceleration of the block after it begins to move. Express your answer in terms of some or all of the variables , , and , as well as the acceleration due to gravity . You did not open hints for this part. ANSWER: Score Summary: Your score on this assignment is 0%. You received 0 out of a possible total of 0 points. Ffriction = a μs μk m g a =

Chapter 6 Practice Problems (Practice – no credit) Due: 11:59pm on Friday, March 14, 2014 You will receive no credit for items you complete after the assignment is due. Grading Policy PSS 6.1 Equilibrium Problems Learning Goal: To practice Problem-Solving Strategy 6.1 for equilibrium problems. A pair of students are lifting a heavy trunk on move-in day. Using two ropes tied to a small ring at the center of the top of the trunk, they pull the trunk straight up at a constant velocity . Each rope makes an angle with respect to the vertical. The gravitational force acting on the trunk has magnitude . Find the tension in each rope. PROBLEM-SOLVING STRATEGY 6.1 Equilibrium problems MODEL: Make simplifying assumptions. VISUALIZE: Establish a coordinate system, define symbols, and identify what the problem is asking you to find. This is the process of translating words into symbols. Identify all forces acting on the object, and show them on a free-body diagram. These elements form the pictorial representation of the problem. SOLVE: The mathematical representation is based on Newton’s first law: . The vector sum of the forces is found directly from the free-body diagram. v  FG T F  = = net i F  i 0 ASSESS: Check if your result has the correct units, is reasonable, and answers the question. Model The trunk is moving at a constant velocity. This means that you can model it as a particle in dynamic equilibrium and apply the strategy above. Furthermore, you can ignore the masses of the ropes and the ring because it is reasonable to assume that their combined weight is much less than the weight of the trunk. Visualize Part A The most convenient coordinate system for this problem is one in which the y axis is vertical and the ropes both lie in the xy plane, as shown below. Identify the forces acting on the trunk, and then draw a free-body diagram of the trunk in the diagram below. The black dot represents the trunk as it is lifted by the students. Draw the vectors starting at the black dot. The location and orientation of the vectors will be graded. The length of the vectors will not be graded. ANSWER: Part B This question will be shown after you complete previous question(s). Solve Part C This question will be shown after you complete previous question(s). Assess Part D This question will be shown after you complete previous question(s). A Gymnast on a Rope A gymnast of mass 70.0 hangs from a vertical rope attached to the ceiling. You can ignore the weight of the rope and assume that the rope does not stretch. Use the value for the acceleration of gravity. Part A Calculate the tension in the rope if the gymnast hangs motionless on the rope. Express your answer in newtons. You did not open hints for this part. ANSWER: Part B Calculate the tension in the rope if the gymnast climbs the rope at a constant rate. Express your answer in newtons. You did not open hints for this part. kg 9.81m/s2 T T = N T ANSWER: Part C Calculate the tension in the rope if the gymnast climbs up the rope with an upward acceleration of magnitude 1.10 . Express your answer in newtons. You did not open hints for this part. ANSWER: Part D Calculate the tension in the rope if the gymnast slides down the rope with a downward acceleration of magnitude 1.10 . Express your answer in newtons. You did not open hints for this part. ANSWER: T = N T m/s2 T = N T m/s2 T = N Applying Newton’s 2nd Law Learning Goal: To learn a systematic approach to solving Newton’s 2nd law problems using a simple example. Once you have decided to solve a problem using Newton’s 2nd law, there are steps that will lead you to a solution. One such prescription is the following: Visualize the problem and identify special cases. Isolate each body and draw the forces acting on it. Choose a coordinate system for each body. Apply Newton’s 2nd law to each body. Write equations for the constraints and other given information. Solve the resulting equations symbolically. Check that your answer has the correct dimensions and satisfies special cases. If numbers are given in the problem, plug them in and check that the answer makes sense. Think about generalizations or simplfications of the problem. As an example, we will apply this procedure to find the acceleration of a block of mass that is pulled up a frictionless plane inclined at angle with respect to the horizontal by a perfect string that passes over a perfect pulley to a block of mass that is hanging vertically. Visualize the problem and identify special cases First examine the problem by drawing a picture and visualizing the motion. Apply Newton’s 2nd law, , to each body in your mind. Don’t worry about which quantities are given. Think about the forces on each body: How are these consistent with the direction of the acceleration for that body? Can you think of any special cases that you can solve quickly now and use to test your understanding later? m2  m1 F = ma One special case in this problem is if , in which case block 1 would simply fall freely under the acceleration of gravity: . Part A Consider another special case in which the inclined plane is vertical ( ). In this case, for what value of would the acceleration of the two blocks be equal to zero? Express your answer in terms of some or all of the variables and . ANSWER: Isolate each body and draw the forces acting on it A force diagram should include only real forces that act on the body and satisfy Newton’s 3rd law. One way to check if the forces are real is to detrmine whether they are part of a Newton’s 3rd law pair, that is, whether they result from a physical interaction that also causes an opposite force on some other body, which may not be part of the problem. Do not decompose the forces into components, and do not include resultant forces that are combinations of other real forces like centripetal force or fictitious forces like the “centrifugal” force. Assign each force a symbol, but don’t start to solve the problem at this point. Part B Which of the four drawings is a correct force diagram for this problem? = 0 m2 = −g a 1 j ^  = /2 m1 m2 g m1 = ANSWER: Choose a coordinate system for each body Newton’s 2nd law, , is a vector equation. To add or subtract vectors it is often easiest to decompose each vector into components. Whereas a particular set of vector components is only valid in a particular coordinate system, the vector equality holds in any coordinate system, giving you freedom to pick a coordinate system that most simplifies the equations that result from the component equations. It’s generally best to pick a coordinate system where the acceleration of the system lies directly on one of the coordinate axes. If there is no acceleration, then pick a coordinate system with as many unknowns as possible along the coordinate axes. Vectors that lie along the axes appear in only one of the equations for each component, rather than in two equations with trigonometric prefactors. Note that it is sometimes advantageous to use different coordinate systems for each body in the problem. In this problem, you should use Cartesian coordinates and your axes should be stationary with respect to the inclined plane. Part C Given the criteria just described, what orientation of the coordinate axes would be best to use in this problem? In the answer options, “tilted” means with the x axis oriented parallel to the plane (i.e., at angle to the horizontal), and “level” means with the x axis horizontal. ANSWER: Apply Newton’s 2nd law to each body a b c d F  = ma  tilted for both block 1 and block 2 tilted for block 1 and level for block 2 level for block 1 and tilted for block 2 level for both block 1 and block 2 Part D What is , the sum of the x components of the forces acting on block 2? Take forces acting up the incline to be positive. Express your answer in terms of some or all of the variables tension , , the magnitude of the acceleration of gravity , and . You did not open hints for this part. ANSWER: Part E This question will be shown after you complete previous question(s). Part F This question will be shown after you complete previous question(s). Part G This question will be shown after you complete previous question(s). Lifting a Bucket A 6- bucket of water is being pulled straight up by a string at a constant speed. F2x T m2 g  m2a2x =F2x = kg Part A What is the tension in the rope? ANSWER: Part B This question will be shown after you complete previous question(s). Part C This question will be shown after you complete previous question(s). Friction Force on a Dancer on a Drawbridge A dancer is standing on one leg on a drawbridge that is about to open. The coefficients of static and kinetic friction between the drawbridge and the dancer’s foot are and , respectively. represents the normal force exerted on the dancer by the bridge, and represents the gravitational force exerted on the dancer, as shown in the drawing . For all the questions, we can assume that the bridge is a perfectly flat surface and lacks the curvature characteristic of most bridges. about 42 about 60 about 78 0 because the bucket has no acceleration. N N N N μs μk n F  g Part A Before the drawbridge starts to open, it is perfectly level with the ground. The dancer is standing still on one leg. What is the x component of the friction force, ? Express your answer in terms of some or all of the variables , , and/or . You did not open hints for this part. ANSWER: Part B The drawbridge then starts to rise and the dancer continues to stand on one leg. The drawbridge stops just at the point where the dancer is on the verge of slipping. What is the magnitude of the frictional force now? Express your answer in terms of some or all of the variables , , and/or . The angle should not appear in your answer. F  f n μs μk Ff = Ff n μs μk  You did not open hints for this part. ANSWER: Part C Then, because the bridge is old and poorly designed, it falls a little bit and then jerks. This causes the person to start to slide down the bridge at a constant speed. What is the magnitude of the frictional force now? Express your answer in terms of some or all of the variables , , and/or . The angle should not appear in your answer. ANSWER: Part D The bridge starts to come back down again. The dancer stops sliding. However, again because of the age and design of the bridge it never makes it all the way down; rather it stops half a meter short. This half a meter corresponds to an angle degree (see the diagram, which has the angle exaggerated). What is the force of friction now? Express your answer in terms of some or all of the variables , , and . Ff = Ff n μs μk  Ff =   1 Ff  n Fg You did not open hints for this part. ANSWER: Kinetic Friction Ranking Task Below are eight crates of different mass. The crates are attached to massless ropes, as indicated in the picture, where the ropes are marked by letters. Each crate is being pulled to the right at the same constant speed. The coefficient of kinetic friction between each crate and the surface on which it slides is the same for all eight crates. Ff = Part A Rank the ropes on the basis of the force each exerts on the crate immediately to its left. Rank from largest to smallest. To rank items as equivalent, overlap them. You did not open hints for this part. ANSWER: Pushing a Block Learning Goal: To understand kinetic and static friction. A block of mass lies on a horizontal table. The coefficient of static friction between the block and the table is . The coefficient of kinetic friction is , with . Part A m μs μk μk < μs If the block is at rest (and the only forces acting on the block are the force due to gravity and the normal force from the table), what is the magnitude of the force due to friction? You did not open hints for this part. ANSWER: Part B Suppose you want to move the block, but you want to push it with the least force possible to get it moving. With what force must you be pushing the block just before the block begins to move? Express the magnitude of in terms of some or all the variables , , and , as well as the acceleration due to gravity . You did not open hints for this part. ANSWER: Part C Suppose you push horizontally with half the force needed to just make the block move. What is the magnitude of the friction force? Express your answer in terms of some or all of the variables , , and , as well as the acceleration due to gravity . You did not open hints for this part. Ffriction = F F μs μk m g F = μs μk m g ANSWER: Part D Suppose you push horizontally with precisely enough force to make the block start to move, and you continue to apply the same amount of force even after it starts moving. Find the acceleration of the block after it begins to move. Express your answer in terms of some or all of the variables , , and , as well as the acceleration due to gravity . You did not open hints for this part. ANSWER: Score Summary: Your score on this assignment is 0%. You received 0 out of a possible total of 0 points. Ffriction = a μs μk m g a =

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1 BACKGROUND The new generation of enhanced mid core PICs such as the 16F1847 and the 12F1840 have an inbuilt temperature sensor. This sensor consists of a current source which flows through four diodes in series and the voltage drop across the diodes which is proportional to temperature can be measured by internally connecting the sensor to the ADC and determining the temperature based on the ADC value In this assignment the temperature sensor is used to create a simple thermometer application and to create an alarm should the sensor go outside the set value. Assignment Details 1) Determine the register settings needed to switch the sensor on and connect the temperature sensor to the ADC. Using appropriate values for Vref+ and Vref- display the ADC count value on the 7 segment display. 2) With reference to Microchip Application Note AN1333, “Use and Calibration of the Internal Temperature Indicator” (DS01333) determine an appropriate algorithm to convert from the ADC value to the temperature in degrees centigrade and implement it using a lookup table or otherwise. Display this value on the 7 segment display. Additional marks will be given for accuracy, calibration and averaging the temperature readings to give a more accurate, and a more stable temperature reading. . 2 In order to meet the specification the following will be required. i) Selection of appropriate microcontroller to meet the requirement of the task. ii) Development of an assembly language program to control the operation of the embedded system. iii) Thorough testing to ensure correct operation of the system. iv) Produce a project report to evidence all of the above. Follow Report Requirements (20 pages max) 1) Introduction – Clearly state the scope and aims and objectives of the project: Include Aims and Objectives, i.e. break down the project into smaller attainable aims and objectives for example one objective could be to develop a program to control the LED display. If all objectives are met then the overall project should have been completed. 2) Theory – Include any relevant theory 3) Procedure, Results Discussion – The report should show a methodical, systematic design approach. The microcontroller kits in the laboratory can be used as the hardware platform, however circuit diagrams should be included in the report and explanations of operation is expected. 4) Include flowcharts and detailed explanations of software development. Include appropriate simulation screen shots. Show and discuss results e.g. ADC program, LED program, etc. Include final/complete program. Were results as expected, do they compare favourably with simulated results, what could be done to improve the operation and accuracy of the system? 5) Conclusion – Reflect back on the original aims and objectives. Were they met if not why not? What further work could be carried out to meet aims and objectives etc? 3 Marks ALLOCATION Marks are allocated for the given activities as follows: MARK (%) PROJECT WORK 60 PROJECT REPORT 30 PRESENTATION MARK 10 ______ Total 100 The marks awarded for the microcontrollers in embedded system module will be made up as follows:- PROJECT MARK Have all of the specifications been met? Correct Register settings to switch on sensor and connect temperature sensor to ADC 5% Display two different characters on the 7 segment display 5% Display the ADC count value on the 7 segment display 10% Display the temperature on the seven segment display 20% Calibration 10% Accuraccy 10% Total 60% REPORT MARK Introduction and Theory 5% Procedure, Results and Discussion 20% Report Presentation 5% Total 30% PRESENTATION (POWER POINT) & DEMO Demonstration 10% Total 10% TOTAL 100% 4 Schematic for the Assignment Seven Segment Display Code ;************************************************ ;Appropriate values to illuminate a seven segment display ;with numbers 0 – 9 are extracted from a look up table ;and output on PORTB. ;A software delay is incorporated between displaying ;successive values so that they can be observed. ;(This program is useful demonstrating software delays, ; and look up tables. ; ;************************************************ ; list p=16F1937A #include <p=16f1937.inc> ; ; ****** PROGRAM EQUATES ****** ; temp equ 0x20 value equ 0x21 outer equ 0x22 RB0 RB1 RB2 RB3 RB4 RB5 RB6 RB7 a b c d e f g dp RA1 RA0 +5V 16F84 VDD Vss 220Ω x 8 CA2 CA1 100K x 2 5K6 5K6 +5V +5V a b c d e f g a b c d e f g middle equ 0x23 inner equ 0x24 w equ 0 f equ 1 ; ; ; ****** MAIN PROGRAM ****** ; org 0x00 banksel PORTB clrf PORTB banksel ANSELB clrf ANSELB clrf ANSELA banksel TRISB movlw 0x00 ;Set port b all outputs movwf TRISB movlw 0x00 ;Set port a all inputs movwf TRISA banksel PORTB ; movlw 0x00 movwf PORTB ;turn off display ; ; ; **** DISPLAY COUNT SEQUENCE *** ; display movlw 0x00 ;Use value as a counter ie movwf value ;value is incremented every begin movf value,w ;time a value is extracted from table bsf PORTA,0 ;turn on LSB display call get ;call subroutine to get value movwf PORTB ;output value to portb call wait ;call delay subroutine incf value ;increment counter btfsc value,3 ;test to see if counter = %1010 btfss value,1 ;if not get next value, if yes goto begin ; goto display ;go to display again ; ; **** LOOK UP TABLE FOR VALUES **** ; get brw ;look up table to illuminate retlw 0xc0 ;the numbers 0 – 9 on seven segment retlw 0xf9 ;display (outputs from port are retlw 0xa4 ;active low retlw 0xb0 retlw 0x99 retlw 0x92 retlw 0x82 retlw 0xf8 retlw 0x80 retlw 0x90 ; ; **** TIME DELAY ROUTINE **** ; ( THREE NESTED LOOPS ) ; wait ;delay subroutine movlw 0x02 ;-outer loop movwf outer ; wait3 movlw 0 xff ; -middle loop movwf middle wait2 movlw 0xff ;-inner loop movwf inner wait1 decfsz inner,f goto wait1 ;-inner loop decfsz middle,f goto wait2 ;-middle loop decfsz outer,f goto wait3 ;-outer loop return end

1 BACKGROUND The new generation of enhanced mid core PICs such as the 16F1847 and the 12F1840 have an inbuilt temperature sensor. This sensor consists of a current source which flows through four diodes in series and the voltage drop across the diodes which is proportional to temperature can be measured by internally connecting the sensor to the ADC and determining the temperature based on the ADC value In this assignment the temperature sensor is used to create a simple thermometer application and to create an alarm should the sensor go outside the set value. Assignment Details 1) Determine the register settings needed to switch the sensor on and connect the temperature sensor to the ADC. Using appropriate values for Vref+ and Vref- display the ADC count value on the 7 segment display. 2) With reference to Microchip Application Note AN1333, “Use and Calibration of the Internal Temperature Indicator” (DS01333) determine an appropriate algorithm to convert from the ADC value to the temperature in degrees centigrade and implement it using a lookup table or otherwise. Display this value on the 7 segment display. Additional marks will be given for accuracy, calibration and averaging the temperature readings to give a more accurate, and a more stable temperature reading. . 2 In order to meet the specification the following will be required. i) Selection of appropriate microcontroller to meet the requirement of the task. ii) Development of an assembly language program to control the operation of the embedded system. iii) Thorough testing to ensure correct operation of the system. iv) Produce a project report to evidence all of the above. Follow Report Requirements (20 pages max) 1) Introduction – Clearly state the scope and aims and objectives of the project: Include Aims and Objectives, i.e. break down the project into smaller attainable aims and objectives for example one objective could be to develop a program to control the LED display. If all objectives are met then the overall project should have been completed. 2) Theory – Include any relevant theory 3) Procedure, Results Discussion – The report should show a methodical, systematic design approach. The microcontroller kits in the laboratory can be used as the hardware platform, however circuit diagrams should be included in the report and explanations of operation is expected. 4) Include flowcharts and detailed explanations of software development. Include appropriate simulation screen shots. Show and discuss results e.g. ADC program, LED program, etc. Include final/complete program. Were results as expected, do they compare favourably with simulated results, what could be done to improve the operation and accuracy of the system? 5) Conclusion – Reflect back on the original aims and objectives. Were they met if not why not? What further work could be carried out to meet aims and objectives etc? 3 Marks ALLOCATION Marks are allocated for the given activities as follows: MARK (%) PROJECT WORK 60 PROJECT REPORT 30 PRESENTATION MARK 10 ______ Total 100 The marks awarded for the microcontrollers in embedded system module will be made up as follows:- PROJECT MARK Have all of the specifications been met? Correct Register settings to switch on sensor and connect temperature sensor to ADC 5% Display two different characters on the 7 segment display 5% Display the ADC count value on the 7 segment display 10% Display the temperature on the seven segment display 20% Calibration 10% Accuraccy 10% Total 60% REPORT MARK Introduction and Theory 5% Procedure, Results and Discussion 20% Report Presentation 5% Total 30% PRESENTATION (POWER POINT) & DEMO Demonstration 10% Total 10% TOTAL 100% 4 Schematic for the Assignment Seven Segment Display Code ;************************************************ ;Appropriate values to illuminate a seven segment display ;with numbers 0 – 9 are extracted from a look up table ;and output on PORTB. ;A software delay is incorporated between displaying ;successive values so that they can be observed. ;(This program is useful demonstrating software delays, ; and look up tables. ; ;************************************************ ; list p=16F1937A #include ; ; ****** PROGRAM EQUATES ****** ; temp equ 0x20 value equ 0x21 outer equ 0x22 RB0 RB1 RB2 RB3 RB4 RB5 RB6 RB7 a b c d e f g dp RA1 RA0 +5V 16F84 VDD Vss 220Ω x 8 CA2 CA1 100K x 2 5K6 5K6 +5V +5V a b c d e f g a b c d e f g middle equ 0x23 inner equ 0x24 w equ 0 f equ 1 ; ; ; ****** MAIN PROGRAM ****** ; org 0x00 banksel PORTB clrf PORTB banksel ANSELB clrf ANSELB clrf ANSELA banksel TRISB movlw 0x00 ;Set port b all outputs movwf TRISB movlw 0x00 ;Set port a all inputs movwf TRISA banksel PORTB ; movlw 0x00 movwf PORTB ;turn off display ; ; ; **** DISPLAY COUNT SEQUENCE *** ; display movlw 0x00 ;Use value as a counter ie movwf value ;value is incremented every begin movf value,w ;time a value is extracted from table bsf PORTA,0 ;turn on LSB display call get ;call subroutine to get value movwf PORTB ;output value to portb call wait ;call delay subroutine incf value ;increment counter btfsc value,3 ;test to see if counter = %1010 btfss value,1 ;if not get next value, if yes goto begin ; goto display ;go to display again ; ; **** LOOK UP TABLE FOR VALUES **** ; get brw ;look up table to illuminate retlw 0xc0 ;the numbers 0 – 9 on seven segment retlw 0xf9 ;display (outputs from port are retlw 0xa4 ;active low retlw 0xb0 retlw 0x99 retlw 0x92 retlw 0x82 retlw 0xf8 retlw 0x80 retlw 0x90 ; ; **** TIME DELAY ROUTINE **** ; ( THREE NESTED LOOPS ) ; wait ;delay subroutine movlw 0x02 ;-outer loop movwf outer ; wait3 movlw 0 xff ; -middle loop movwf middle wait2 movlw 0xff ;-inner loop movwf inner wait1 decfsz inner,f goto wait1 ;-inner loop decfsz middle,f goto wait2 ;-middle loop decfsz outer,f goto wait3 ;-outer loop return end

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Berkeley College International Economics Quiz 1 Student name: Class & Session (Type all your answers in the parenthesis) Multiple Choice Questions (75 points) 1. The person credited with the first systematic expression of the principle of comparative advantage was ( ) A. Alan Greenspan. B. John Maynard Keynes. C. David Ricardo. D. Adam Smith. 2. A regulation that sets the highest price at which it is legal to trade a good is a ( ) A. Production quota B. Price floor C. Price ceiling D. Tax ceiling 3. In Country J, it takes one hour to knit a pair of socks, and five hours to brew a gallon of cider. In Country K, it takes three hours to knit a pair of socks, and six hours to brew a gallon of cider. If trade were to open between the two countries, Ricardo would predict that ( ) A. Country J will export cider and Country K will export socks. B. Country J will export socks and Country K will export cider. C. Country J will export both socks and cider. D. Country K will export both socks and cider. 4. If Nation A can produce either 3x or 3y with one hour of labor, while nation B can produce either 1x or 1y with one hour of labor, and if labor is the only input, then ( ) A. Nation A has an absolute advantage in both goods. B. Nation B has an absolute advantage in both goods. C. Nation A has a comparative disadvantage in both goods. D. Nation A has a comparative advantage in both goods. 5. Mutually beneficial trade A. Allows both countries to consume a larger bundle of goods than before trade occurred.( ) B. Allows only the more productive country to consume a larger bundle of goods than before trade occurred. C. Allows only the less productive country to consume a larger bundle of goods than before trade occurred. D. Causes changes only in production, not consumption. 6. In the absence of trade, the consumption points available to a nation ( ) A. Are above the production possibility curve. B. Are on or inside the production possibility curve. C. Lie on the production possibility curve. D. Cannot be identified. 7. For Heckscher-Ohlin, the most important cause of the differences in relative commodity prices is the difference between countries in ( ) A. Factor endowments. B. National income. C. Technology. D. Tastes. 8. Country J has 1 million machines and 1 million workers, while country K has 2 million machines and 3 million workers. If computers are produced mostly by capital and beer is produced mostly by labor, the H-O model predicts that ( ) A. Country K will export computers in exchange for beer. B. Country J will export computers in exchange for beer. C. Country J is too small to be of economic interest to Country K. D. Computers and beer don’t mix, so trade cannot increase either country’s well-being. 9. Mexico is an unskilled labor abundant country, while the United States is a skilled labor abundant country. With the opening of trade, you would expect that, in the long run, wages for unskilled workers ( ) A. Decline in both countries. B. Decline in the United States and rise in Mexico. C. Rise in the United States and decline in Mexico. D. Rise in both countries 10. According to trade theory, if a nation has a comparative advantage in a capital-intensively produced good, and the rate of growth of capital is greater than the rate of growth of other inputs (e.g., labor), the pattern of growth which results will be ( ) A. Import replacing. B. Neutral as between capital intensive and other products. C. Export expanding. D. None of the above. 11. Arguments in favor of having developing countries focus on exporting manufactured goods include ( ) A. Strong support in industrialized countries for free trade in manufactured goods. B. Very low tariffs on manufactured textiles, apparel, and footwear in industrialized countries. C. Political preference for VERs among importing countries. D. A downward trend in the prices of primary products. 12. Which group definitely loses from international migration of labor? ( ) A. The migrants. B. The migrants’ new employers in the receiving country. C. The migrants’ old employers in the sending country. D. The migrants’ fellow workers who did not emigrate. 13. As technology advances, ( ) A. All opportunity cost decreases B. The PPF shift outward C. A country moves toward the midpoint along its PPF D. The PPF shift inward because unemployment occurs 14. If a country is operating at a point of production efficiency ( ) A. It enjoys growth when increasing production B. It produces on its production possibility frontier curve C. It must specialize in the production of a good D. It operates on its trade line 15. A cartel is ( ) A. Another name for a firm in an oligopoly B. A collusive agreement among a number of firms C. A government body that regulates an industry D. An antitrust law (Type and show your work) Practicum Question (25 points) Two countries, Haiti and the Dominican Republic, produce fruits and timber. Each island has a labor force of 1200 and the monthly productivity of each worker is as follow Basket of fruit Board feet of timber Haiti 10 5 Dominican Republic 30 10 a. Which county has an absolute advantage in the production of fruit? Timber? b. Which country has a comparative advantage in the production of fruit? Timber? c. Sketch the production possibility frontier (PPF) of both countries d. Both countries want to produce an equal amount of baskets of fruit and feet of timber. How should they allocate their workers to the two sectors? e. How can free trade move both countries beyond their respective PPF Extra credits (10 points) The demand and supply curves of the market for DVD at the local (US) market are as follow: P = 30 – Qd/2 and P= -1.5 + Qs/4 a. Find the equilibrium price and the equilibrium quantity when there is no international trade ( hint: solve for Qd and Qs And then make Qd=Qs to solve for Price and quantities) b. What are the equilibrium quantities when the nations trade freely at price of $15? Explain your rationale. c. How many units are exported? d. What is the resulting national gain? e. Do consumers and producers gain or lose from the free trade?

Berkeley College International Economics Quiz 1 Student name: Class & Session (Type all your answers in the parenthesis) Multiple Choice Questions (75 points) 1. The person credited with the first systematic expression of the principle of comparative advantage was ( ) A. Alan Greenspan. B. John Maynard Keynes. C. David Ricardo. D. Adam Smith. 2. A regulation that sets the highest price at which it is legal to trade a good is a ( ) A. Production quota B. Price floor C. Price ceiling D. Tax ceiling 3. In Country J, it takes one hour to knit a pair of socks, and five hours to brew a gallon of cider. In Country K, it takes three hours to knit a pair of socks, and six hours to brew a gallon of cider. If trade were to open between the two countries, Ricardo would predict that ( ) A. Country J will export cider and Country K will export socks. B. Country J will export socks and Country K will export cider. C. Country J will export both socks and cider. D. Country K will export both socks and cider. 4. If Nation A can produce either 3x or 3y with one hour of labor, while nation B can produce either 1x or 1y with one hour of labor, and if labor is the only input, then ( ) A. Nation A has an absolute advantage in both goods. B. Nation B has an absolute advantage in both goods. C. Nation A has a comparative disadvantage in both goods. D. Nation A has a comparative advantage in both goods. 5. Mutually beneficial trade A. Allows both countries to consume a larger bundle of goods than before trade occurred.( ) B. Allows only the more productive country to consume a larger bundle of goods than before trade occurred. C. Allows only the less productive country to consume a larger bundle of goods than before trade occurred. D. Causes changes only in production, not consumption. 6. In the absence of trade, the consumption points available to a nation ( ) A. Are above the production possibility curve. B. Are on or inside the production possibility curve. C. Lie on the production possibility curve. D. Cannot be identified. 7. For Heckscher-Ohlin, the most important cause of the differences in relative commodity prices is the difference between countries in ( ) A. Factor endowments. B. National income. C. Technology. D. Tastes. 8. Country J has 1 million machines and 1 million workers, while country K has 2 million machines and 3 million workers. If computers are produced mostly by capital and beer is produced mostly by labor, the H-O model predicts that ( ) A. Country K will export computers in exchange for beer. B. Country J will export computers in exchange for beer. C. Country J is too small to be of economic interest to Country K. D. Computers and beer don’t mix, so trade cannot increase either country’s well-being. 9. Mexico is an unskilled labor abundant country, while the United States is a skilled labor abundant country. With the opening of trade, you would expect that, in the long run, wages for unskilled workers ( ) A. Decline in both countries. B. Decline in the United States and rise in Mexico. C. Rise in the United States and decline in Mexico. D. Rise in both countries 10. According to trade theory, if a nation has a comparative advantage in a capital-intensively produced good, and the rate of growth of capital is greater than the rate of growth of other inputs (e.g., labor), the pattern of growth which results will be ( ) A. Import replacing. B. Neutral as between capital intensive and other products. C. Export expanding. D. None of the above. 11. Arguments in favor of having developing countries focus on exporting manufactured goods include ( ) A. Strong support in industrialized countries for free trade in manufactured goods. B. Very low tariffs on manufactured textiles, apparel, and footwear in industrialized countries. C. Political preference for VERs among importing countries. D. A downward trend in the prices of primary products. 12. Which group definitely loses from international migration of labor? ( ) A. The migrants. B. The migrants’ new employers in the receiving country. C. The migrants’ old employers in the sending country. D. The migrants’ fellow workers who did not emigrate. 13. As technology advances, ( ) A. All opportunity cost decreases B. The PPF shift outward C. A country moves toward the midpoint along its PPF D. The PPF shift inward because unemployment occurs 14. If a country is operating at a point of production efficiency ( ) A. It enjoys growth when increasing production B. It produces on its production possibility frontier curve C. It must specialize in the production of a good D. It operates on its trade line 15. A cartel is ( ) A. Another name for a firm in an oligopoly B. A collusive agreement among a number of firms C. A government body that regulates an industry D. An antitrust law (Type and show your work) Practicum Question (25 points) Two countries, Haiti and the Dominican Republic, produce fruits and timber. Each island has a labor force of 1200 and the monthly productivity of each worker is as follow Basket of fruit Board feet of timber Haiti 10 5 Dominican Republic 30 10 a. Which county has an absolute advantage in the production of fruit? Timber? b. Which country has a comparative advantage in the production of fruit? Timber? c. Sketch the production possibility frontier (PPF) of both countries d. Both countries want to produce an equal amount of baskets of fruit and feet of timber. How should they allocate their workers to the two sectors? e. How can free trade move both countries beyond their respective PPF Extra credits (10 points) The demand and supply curves of the market for DVD at the local (US) market are as follow: P = 30 – Qd/2 and P= -1.5 + Qs/4 a. Find the equilibrium price and the equilibrium quantity when there is no international trade ( hint: solve for Qd and Qs And then make Qd=Qs to solve for Price and quantities) b. What are the equilibrium quantities when the nations trade freely at price of $15? Explain your rationale. c. How many units are exported? d. What is the resulting national gain? e. Do consumers and producers gain or lose from the free trade?

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After reading the supplement article on Business Analytics linked to the week 1 schedule, write an essay on how business analytics impacts you today, or its potential role in your chosen career path. Do research for your paper, or interview someone who works in your area. The goals of this paper are two-fold: (1) focus on high quality writing, using the COBE Writing Styles Guide for writing help and citations. (2) consider the importance of BI from a personal/work/career perspective.

After reading the supplement article on Business Analytics linked to the week 1 schedule, write an essay on how business analytics impacts you today, or its potential role in your chosen career path. Do research for your paper, or interview someone who works in your area. The goals of this paper are two-fold: (1) focus on high quality writing, using the COBE Writing Styles Guide for writing help and citations. (2) consider the importance of BI from a personal/work/career perspective.

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Essay list

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