How does art help students in their academics?

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Write an annotated bibliography of what you have researched up to now. To earn a B your uploaded assignment needs to:

have a title (an annotated bibliography)

have the authors (i.e., you) name, under the title

include more than 15 academic sources (e.g. peer-reviewed articles, articles in books edited by academic publishers, books in academic publishers, etc.), with its correct bibliographical information (APA preferred, but could be other style); an academic
book counts as the equivalent of 6 peer-reviewed articles; by now, all sources must be relevant to your research question.

for each source, have a paragraph with a brief summary of the central theme or result of the paper/book, in your own words
(direct quotes are not acceptable)

have a paragraph of a critical assessment of the source; for example, was this a reliable source? did it use inadequate methods?
does it address a different population? is it not scholarly? is it too scholarly?

have a paragraph of reflection; this paragraph must include how the source relates to your research question.

Any topic (writer’s choice)

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Global Healthcare Leadership
“Globalization has created a world community and removed traditional boundaries between people, be they political, social, or  physical”
Select one of the boundaries (political, social, or physical) and address the following.
    How does the boundary affect your practice or have the potential to affect your practice? Provide examples.
    As a leader, how can you have an impact on overcoming that boundary? Provide examples.
    What interprofessional relationships can you foster that can contribute to overcoming the boundary? Be specific and provide rationale.
    How will you leverage resources to overcome the selected boundary?

    Two (2) scholarly sources should be used. These include peer-reviewed publications. Textbooks are not considered scholarly sources. The sources must be within the last 5 years.

Any topic (writer’s choice)

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Each week students will be expected to submit a minimum 500 to 750 maximum word reflection journal response to the homework readings/resources of the week.
Reflective journals are writing assignments that demonstrate your understanding of the readings and course material.
In your reflection, you will include (1) a brief summary of the readings, (2) two points you agree and/or disagree with, and (3) a personal connection to the readings.

Data Analysis

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Tensile Test
Using the data given on the Excel sheet find the followings:
Sample 1 : % 0.4 Carbon Steel, oil Quenched
Initial or original Length of the sample = 33.81 mm
Final length of the sample after fracture = 35.15 mm
Initial or original diameter of the sample = 3.58 mm
Final diameter of the sample after fracture = 3 mm
Force (KN) Displacement (mm)
0 0
6.7 0.53
10.5 0.78
12.3 0.94
13.5 1.1
14.3 1.28
14.8 1.52
14.8 1.78
13.8 2.1
Sample 2: Aluminium alloy
solution treated at 505 centigrade – water quenched and aged at 185 for 6
hours
Initial length of the sample = 37.30 mm
Final length of the sample = 40.38
Initial diameter of the sample = 5.03
Final diameter of the sample = 4.14 mm
Force (KN)

Displacement (mm)
0 0
5.1 0.51
5.4 0.88
5.5 1.28
5.5 1.73
5 2.27
Sample 3: Brass (60% Copper- 40% Zinc) – Cold Worked and annealed
Initial length of the sample = 36.32 mm
Final length of the sample = 49.98 mm
Intitial Diameter of the sample = 3.8 mm
Final Diameter of the sample = 3.28
Force (KN) Displacement (mm)
0 0
2.3 1.85
3.9 4.5
4.6 6.5
4.7 6.85
4.9 7.2
4.9 7.9
5 8.4
5.1 8.7
5.1 9.3
5.2 9.73
5.2 10.3
5.2 10.8
5.2 11.3
5.2 11.8
5.1 12.3
5 12.7
4.1 13.5

  1. Draw force-displacement diagrams for all four samples
    on EXCEL
    sheet
  2. Calculate engineering stress and strain for all samples
    and draw the stress-strain diagrams for all four samples
    on one EXCEL sheet
    σ = F / A
    σ is the engineering stress in (MPa)
    F is the force in (KN)
    A is the cross sectional area of the sample = πd²/ 4
    Ɛ = (lf – l0) / l0
    Ɛ is the engineering strain (no unit)
    l0 is the original length of the sample in (mm)
    lf is the final length of the sample in (mm)
  3. On the stress- strain diagrams for all samples show:
    2.1 Yield point
    2.2 Ultimate tensile stress
    2.3 Breaking stress
    2.4 Toughness
    2.5 Elastic region
  4. Calculate modulus f elasticity, percentage elongation
    (%EL) and percentage reduction in area (%RA)
    % EL = (lf – l0) / l0 % RA = (A0 – Af) / A0

Sample Solution

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