Posts

How did you score on Self-Assessment 1, “Listening Skills”? Do you have good listening skills? Explain your response. What could you be doing to make yourself a better listener? State your plan for improving your listening skills.

/in /by

DISCUSSION ESSAY

This is a presentation, not a discussion. The comments on others will earn extra credit.

After completing the SAT-1-3, each student is expected to be able to examine and correlate their personality traits (from module 2) to communication, listening, feedback, coaching, and conflict management styles. The student is also expected to be able to assess and reflect on how to improve these skills to further develop his/her leadership.

Results and Analysis from M6-SAT 1: Listening Skills Questions

NOTE: Generally speaking, the higher your score, the better your listening skills.

  1. How did you score on Self-Assessment 1, “Listening Skills”?
  2. Do you have good listening skills? Explain your response.
  3. What could you be doing to make yourself a better listener? State your plan for improving your listening skills.

Results and Analysis from M6-SAT 2: Your Personality Traits and Communication, Feedback, Coaching, and Conflict Management Style Questions

  1. Based on your personality traits (these are from Module 2, e.g. surgency, agreeableness, conscientiousness, etc.), what specific things can you and will you do to improve your communication, feedback and coaching, and conflict management style?
  2. Create and explain a short-term (over the next year) action plan for each of the three areas.

Results and Analysis from M6-SAT 3: Determining Your Preferred Communication Style Questions

NOTE: The column with the highest number represents your preferred communication style.

  1. According to your self-assessment test, which of the four communication styles is your preferred communication style?
    • Do you agree with this assessment? Why or why not?
  2. What do you think of the rest of the information presented in this self-assessment test?
  3. What are three things that you could do to improve your overall communication style?

Which of the following three elements: Mg, Al, or K is most compatible (easily incorporated into a crystalline structure)? Which of these three elements is most incompatible (not easily incorporated)? How do you know?

/in /by

Fractional Crystallization of Magma

Objective

In this exercise, you will gain an understanding of magmatic differentiation by fractional crystallization using a model magma chamber. The activity was adapted from materials developed by Dr. Karl Wirth at Macalester College (http://www.macalester.edu/geology/wirth/CourseMaterials.html)

Introduction

In lecture you learned about the importance of fractionation in generating the diversity of observed igneous rock compositions (e.g., basalt, andesite, dacite, rhyolite). Magmatic differentiation is the process by which diverse rock types are generated from a single magma. There are many ways to accomplish differentiation, but one of the most common is by fractional crystallization, a two-stage process that involves: (1) the formation of crystals from a melt, and (2) mechanical separation of crystals and melt.

 

In 1844, Charles Darwin described lava flows from the Galápagos Islands in which the lowest flows contained greater proportions of feldspar crystals. These observations led Darwin to propose that density differences between crystals and melt would result in mechanical separation of these two phases and the formation of different magma types. This process, known today as gravity settling, was the focus of detailed experimental studies during by 1950s by N.L. Bowen (as in Bowen’s Reaction Series). Today, several additional mechanisms of crystal-melt fractionation are also recognized, including flow segregation and filter pressing.

 

Instructions

Materials & Supplies

1 bag of “magma”

White board

Markers

 

Directions

  1. Construct the magma chamber.

 

  1. In this exercise, each major cation in the magma (e.g., Si, Mg, Al) is represented by a different colored wooden bead. To simplify the activity, we assume that the magma chamber contains enough oxygen anions to form all of the minerals that crystallize; so, we will make all calculations in cation atomic percent (rather than oxide weight percent, which is commonly reported for rocks). We also assume that there is no solid solution in minerals crystallizing from the magma, and that there are no volatiles in the magma.

 

  1. Before you begin, complete Table 1 (Mineral Compositions) by filling in each mineral formula and determining the proportions of cations in each mineral that will crystallize from the magma.

 

  1. Check that your bag of “magma” has the correct number of cations (beads) for each color (for example, 184 green beads for Si, 71 yellow beads for Al, etc.). NOTE that each bag of beads has a different color scheme – be sure to check the note inside of the bag to identify your color scheme. The starting number of beads for each cation is listed in Table 2 ( Cations Remaining in Liquid).

 

  1. Mix the beads together and place them in a magma chamber that you draw on one half of the white board. This represents the “liquid” end of your magma chamber.

 

  1. Note the general proportions of the different colors in the magma chamber.

 

  1. Begin fractional crystallization.

 

  1. On the other half of the white board, draw 10 horizontal lines and label these with line “1” at the bottom and line “10” at the top. Each line represents one crystallization step in the table below.

 

  1. Starting with Step 1, remove the appropriate number of beads from the “liquid” magma during each crystallization step in the table, below. As minerals crystallize, move them to the labeled layers on the “solid” region of the magma chamber.

 

Mineral Crystallization Step
  1 2 3 4 5 6 7 8 9 10
Forsterite 2 3 4 3 2          
Fayalite     1 2 2 1        
Diopside       1 1 4 2 2 1 1
Anorthite   1 2 3 3 4 3 3 1 1
Albite           1 3 6 5 7
Orthoclase                 2 2
Quartz                 1 4

 

  1. After each crystallization step, record the number of cations remaining in the liquid for each element (the number of each color of bead left in the “liquid”) in Table 2.

 

  1. For each crystallization step, calculate the relative proportions of each element remaining in the magma as a percentage of the total number of elements remaining after that crystallization step [for example, if you remove 10 atoms of Mg and 5 atoms of Si in Step 1, %Mg = (30)/(355)]. Record this information in Table 3 (Magma Composition). You will need to perform these calculations in a spreadsheet and submit it with this homework.

 

  1. Also calculate the proportion of magma remaining (f) in each crystallization step by dividing the number of cations (beads) remaining in the liquid by the original total number of cations in the liquid [for example, if you remove 10 atoms of Mg and 5 atoms of Si in Step 1, f = (355/370)]. Record this information in Table 3 (or include this in a spreadsheet).

 

  1. Use the results of the fractional crystallization exercise to answer the questions, below.

 

 

Problems in Fractional Crystallization

  1. Use your lab materials to look up the formula for each mineral that will crystallize from the magma. Record formulas in the first row of the table, and identify each mineral group in the second row. Remember, no solid solution – so write pure endmember formulas. Second, record the number of cations per formula. Last, record the bead color for each cation.

 

Table 1. Mineral Compositions

  Bead Color Forsterite Fayalite Diopside Anorthite Albite Orthoclase Quartz
Formula

 

 —–              
Mineral Group —–          
Si

 

                
Al

 

                
Fe

 

                
Mg

 

                
Ca

 

                
Na

 

                
K

 

                

 

  1. Use the table on page 2 to determine what minerals are removed in each crystallization step. Record the cations remaining in the magma for each step in this table.

 

Table 2. No. Cations Remaining in Liquid

Cation Start No. Crystallization Step
    1 2 3 4 5 6 7 8 9 10
Si

 

 184                    
Al

 

 71                    
Fe

 

 12                    
Mg

 

 40                    
Ca

 

 33                    
Na

 

 23                    
K

 

 7                    
Total

 

 370                    

 

  1. Convert the number of cations in each step to proportions by dividing each cation by the total number of cations in that step (see pg. 2 for an example). DO THIS IN A SPREADSHEET and submit the spreadsheet along with your homework. Set up your spreadsheet like the table below (DO NOT write answers in this table).

 

Table 3. Magma Composition

Cation Start % Crystallization Step
    1 2 3 4 5 6 7 8 9 10
Si 49.73                    
Al 19.19                    
Fe 3.24                    
Mg 10.81                    
Ca 8.92                    
Na 6.22                    
K 1.89                    
Total 100.00                    
Liquid Frac (f) 1.00                    

 

  1. Compare the types of minerals removed at the beginning of crystallization with those removed in the middle and end of crystallization (i.e., mafic versus felsic minerals). Does this exercise largely follow Bowen’s reaction series? Why or why not?

 

 

  1. Look back at the table under Procedure 2a- this table shows what minerals are removed from the magma during each crystallization step (1 to 10). Determine an appropriate simple intrusive igneous rock name (using Lab #5) for the assemblage of crystallized minerals at the 2nd, 7th, and 10th crystallization steps. The 4th step has been done as an example.

 

olivine (forsterite & fayalite), clinopyroxene (diopside), plagioclase feldspar (anorthite)

Step                             Minerals Removed                                        Rock Name

4 (example)                                                                                    Olivine gabbro                               

2                  _____________________________                                                             

7                  _____________________________                                                             

10                _____________________________                                                             

 

  1. Use the data from Table 3 to graph the following (using a spreadsheet program like Google Sheets or Excel). As a general rule, create graphs that occupy at least half of a sheet of paper. Make sure your axes are labeled and put a title on each graph. Turn in your graphs and answer the next questions based on these graphs.

 

  1. On one graph, plot the liquid fraction remaining (f) on the y-axis, versus crystallization step (1 through 10) on the x-axis.

 

  1. On a new graph, plot the % of each element below on the y-axis, versus crystallization step (1 through 10) on the x-axis. Use a different color for each element:

%Si

%Mg

%Al

%K

 

  1. Describe the general trends you observe in each graph during crystallization (for example, increasing rapidly, decreasing slowly, remaining steady then increasing rapidly, etc.)

 

Liquid fraction remaining:

 

%Si:

 

%Mg:

 

%Al:

 

%K:

 

 

 

  1. Which of the following three elements: Mg, Al, or K is most compatible (easily incorporated into a crystalline structure)? Which of these three elements is most incompatible (not easily incorporated)? How do you know?

 

  1. Explain how the percentage of silica in magma increases during crystallization despite the fact that silicate minerals are being removed throughout the crystallization process.

 

 

  1. Magmas are classified by their silica content according to the following:
Wt% SiO2 Magma name
45-52 Basalt
52-57 Basaltic andesite
57-63 Andesite
63-70 Dacite
>70 Rhyolite

 

Using the above classification scheme, classify the magma by %Si at the following steps. The magma composition in Step 4 has been done as an example.

 

Step         %Si (Table 3)              Magma Name

4 (example)         53.3                 Basaltic andesite

Start         __________                                                               

2               __________                                                               

7               __________                                                               

10             __________                                                               

 

  1. Which aspects of this model magma chamber are realistic? Which are not?  (Hint: think about the simplifications and assumptions in the model).  Suggest at least three ways to make the model more realistic.

 

After you have received feedback on your draft during the workshop period, you should make a revision plan. Revise your response essay based upon the feedback you received in the draft workshop.

/in /by

Meaning and Significance: rough draft workshop

Your essay should identify a topic that you think is meaningful and significant, and compose a thesis statement supported by evidence (sources and your analysis) for why other people should pay attention. In order to satisfy the requirements for this assignment, you should complete the steps below.

    1. Compose a first draft of your essay. While your first draft does not have to be the full 1000 words of the final draft, it should not be less than 700 words. Your first draft should include a working thesis, body paragraphs, and an outline of your conclusion. You will submit your rough draft to Canvas for peer review. During the peer review workshop period, you will be giving and receiving feedback on your essay.
    2. After you have received feedback on your draft during the workshop period, you should make a revision plan. Your revision plan should identify key areas for improvement and identify specific actions you will take to revise your essay. You should enter those specific actions into your calendar between the workshop and the due date.
    3. Revise your response essay based upon the feedback you received in the draft workshop. Make sure your essay has an original title. Submit your final draft by the due date.

What is the message you are communicating in your documentary? Who is your target audience?

/in /by

Documentary Structure

What is the message you are communicating in your documentary?

Who is your target audience?

  1. Action – What interesting video/audio will you start with to draw the Audience in to your documentary?
  2. Background – Introduce your subject and all of the aspects of the subject, characters and message.
  3. Development – Develop all of the aspects of the subject, characters and message. Expand on these subjects to give the audience a clear picture.
  4. Climax – What emotional and exciting element will be in the documentary that puts the audience on the edge of their seat or at least captivates them?
  5. Conclusion – Summarize your message and provide a direction for the audience to go from here. Where can the audience go from here?

Write at least ten open-ended (non-yes/no) questions to ask your interviewees on the subject of your documentary and list them here.

/in /by

Open Ended Questions

Write at least ten open-ended (non-yes/no) questions to ask your interviewees on the subject of your documentary and list them here.

Make sure that the questions elicit a complete answer and cannot be answered by a simple “yes” or “no” or other one word answer.

Consider the order of your questions and how the answers will create the flow of the interview and feed logically from one to the next.

Summarize the potential links that are relevant to the selected case study (e.g., genetic, environmental, social, cultural, organizational). Examine the case study by applying one psychological theory of your choice pertinent to applied behavioral science.

/in /by

Applied Psychology: From Theory to Practice

Introduction: The paper must begin with a well-written introduction that includes a succinct thesis statement. For assistance with creating a thesis statement, utilize the Thesis GeneratorLinks to an external site. tool on the University of Arizona Global Campus Writing Center website. In your introduction paragraph, address the following:

  • Define applied behavioral science (in your own words) and the area of psychology from which the case study is explored.
  • Discuss why you have chosen this case study.

Body: In your paper, address the following:

  • Summarize the potential links that are relevant to the selected case study (e.g., genetic, environmental, social, cultural, organizational).
  • Examine the case study by applying one psychological theory of your choice pertinent to applied behavioral science.
  • Describe scientific research that is relevant to your selected case study.
  • Include past and current findings that are noteworthy.
  • Identify any relevant trends in working with your intended population.
  • Explain how you would apply the principles of diversity, equity, and inclusion when working with your chosen client.
  • Examine the pros and cons (advantages and disadvantages) of utilizing at least one applied behavioral science intervention method to address the concerns in the scenario you selected.
  • Analyze ethical considerations that are relevant to this case.
  • Evaluate how your research from this assignment can be applied to your career goals.

Conclusion: You must end your paper with a conclusion that reaffirms your thesis and summarizes the main elements of your research.

Describe the CHA and CHIP processes based on the information provided in the excerpt. You should note the demographics of the population and the community described and the final analysis of priorities.

/in /by

Population Health Question

Assignment Instructions:

Go to the following website and review the embedded case/exemplars of High Quality CHA’s and CHIP’s:

http://www.naccho.org/topics/infrastructure/CHAIP/guidance-and-examples.cfmhttps://www.naccho.org/index.php?p=programs/public-health-infrastructure/performance-improvement/community-health-assessment

East Central Kansas Public Health Region, CHA

https://www.naccho.org/programs/public-health-infrastructure

After which, each student is to answer the following questions in detail:

1) Describe the CHA and CHIP processes based on the information provided in the excerpt. You should note the demographics of the population and the community described and the final analysis of priorities.

2) Do you agree with the community’s rationale for addressing the identified health issues they selected to work on? Explain your answer.

React to the news article. This means to write how the article made you feel and think. Pose a stance. State an opinion. What are your feelings and attitude related to the article? Do you agree or disagree?

/in /by

Current Event Assignment

Locate a Current Event Article (within the last year). It needs to be RELATED to any issue discussed in this course. It can be a current event that is of local, state, national or international significance. You may use newspapers, the Internet, or a news magazine to get your current event article. The news article must be at least 3 paragraphs long.

Assignment Objectives

This assignment correlates with:

Examining the impact of various societal influences on the development of children’s social identity.

Identifying issues of social injustice and bias that occur in classrooms.

Instructions

  • Summarize the article using your own words.
  • Analyze the article in reference to course content (readings, lecture, and discussions from class). This means connect the article to the course content.
  • React to the news article. This means to write how the article made you feel and think. Pose a stance. State an opinion. What are your feelings and attitude related to the article? Do you agree or disagree?
  • Write about how you personally connect to this article?

Design an object using CAD tools to solve a given problem, design it and 3D model and 3D print it. Try to make your design simple.

/in /by

Assignment #1: Engineering Design & CAD (3%)

Explana@on:
In this assignment, students will design an object using CAD tools to solve a given problem, design it and 3D model and 3D print it. Try to make your design simple.

Check the 3D file given to you. You are an employee in ABC company and are required to design a joint or a piece that fits into the gap between the two gears to make them move (in any direc@on). Design that piece, keeping in mind efficiency, simplicity and prac@cality.

The slab height is 10 mm, length is 96 mm and breadth is 113 mm. The leU gear has a diameter of 33.78 mm and the right gear has a diameter of 58.53 mm. The leU cylinder is almost 30 mm in height and the right cylinder is almost 10 mm in height . The distance between the two gears is around 36 mm.

Apply Albert Ellis’s ABC model to understand Layla’s career indecision. How might cognitive restructuring be helpful for Layla? How might cognitive restructuring be limiting?

/in /by

Layla Cognitive Behavioral Therapy (CBT) Case Questions

Read over the below case write up regarding a client named Layla. Then, respond the prompts that follow:

Imagine you have been assigned (as a therapist) to see a client named Layla.

Layla is a 20 year old college junior who says she is seeking counseling because she is having trouble choosing a major. Over the course of her undergraduate career, Layla has changed her career goals five times. She started with pre-med, then to computer science, to engineering, pre-law and finally business. Layla has done very well in most her classes, yet has not found her interest in any of these.

Layla is the oldest of 3 children. Her parents are both undocumented immigrants from Ethiopia. Layla’s parents met in college, where they were active in student protests against oppressive practices by the Ethiopian government. The government was targeting and punishing protesters. Despite this, her parents continued to march for justice. One day, on her way home from classes, her mother was kidnapped, and tortured for her activism. Her captors, who were state agents, threatened her do the same to her family if she continued to protest. So, her family put their money together and bought her a plane ticket to the United States. Layla’s father came with her. They planned to seek asylum, however, their case was denied and they were ordered to return to Ethiopia. Because they feared for their lives, they were unable to return to Ethiopia. Thus, they remained, undocumented, in the U.S.

Layla and her siblings were born soon after. Layla’s parents worked long and unpredictable hours, taking any job they were able to get. Due to their undocumented status, they had few good choices. Layla and her siblings always had food on the table, and were told to focus on their education. Layla was responsible for babysitting her siblings, making sure they did their homework, cooking for them, and makings sure their homework was done. Layla grew up hearing her parents’ stories about the injustices they fought as college students, the torture her mother experienced, how they became undocumented Americans, and seeing their work conditions. She was often terrified they would be hurt. Layla was often alone with her siblings while her parents worked the nightshift. She stayed awake watching the door all night until a parent came home. She often had nightmares that intruders attacked her and her siblings and spent the day thinking about how she could protect them. She also had nightmares about her parents not returning home.

Layla has also been working since she was a child, saving money for herself and her siblings to go to college, and sometimes for sweet treats or school supplies her parents were unable to provide. She walked dogs since she was 7 years old, started babysitting the neighbor’s children since she was 10. She has also worked her way through school. Throughout college, Layla continues to live at home, work as many hours as she can, and take care of her siblings while her parents work to help her with tuition. Although she is older, and the nightmares are less frequent, they have not gone away. When she is most scared, she looks at her bank account and thinks about how safe she would feel if she could save some money. Maybe her parents could leave their risky jobs. Maybe they could be home more.

The only thing Layla has ever cared about outside her family is her activism in movements supporting undocumented rights and racial justice. While she does not get to be with her mom very much, protests help her feel closer to her mom. Layla used to dream of pursuing civil rights law. However, her parents do not support this dream. Given their experiences, they are terrified of Layla being harmed as a result of justice work. With news headlines of protesters in support of Black Lives Matter being targeted by police or counter-protesters, the deployment of the National Guard to “keep the peace,” and the government’s violent rhetoric against protesters, Layla’s mother’s trauma symptoms from her own torture have become intense. Layla does not want to see her mother this way, and does not want to add to her mother’s stress. She has decided to pursue a “safer,” more stable career path that will allow her to provide financial support for her parents and siblings, while also remaining physically safer and calling less attention to her family. However, she is unsure of which specific career to pursue. She is unhappy with the majors she has tried so far, and is thinking about switching majors again. She does not want to be in therapy, but her academic advisor insisted that she see you. Layla feels uncomfortable talking about herself. In her relationships with others, she tends to be the one people turn to for help. When she does begin to talk about herself, she feels selfish and guilty for burdening others. When you, as her therapist, as about her personal life, she repeatedly switches back to her major choice. She would like you, as her therapist, to recommend a different major.

  1. Apply Albert Ellis’s ABC model to understand Layla’s career indecision.
  2. How might you treat Layla from Ellis’s perspective, using REBT (page 37-40 of G, NW, & F Chapter 12 CBT PDF.
  3. How might cognitive restructuring be helpful for Layla? How might cognitive restructuring be limiting (e.g., what else might Layla needs)?