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OpenGL in C++

OpenGL in C++.

I’m working on a c++ project and need a reference to help me understand better.

I need a scene to that looks like the picture attached in OpenGL. I have some of this completed but still need a source reference to help put it all together.I am not using Glut for my projects, only what is listed below.#include <iostream> #include <cstdlib> #include <GL/glew.h> #include <GLFW/glfw3.h> #include <glm/glm.hpp>#include <glm/gtx/transform.hpp>#include <glm/gtc/type_ptr.hpp>DirectionsUsing the image you selected in a previous milestone, you will be creating 3D objects that represent the components and layout of that image. Although you have already begun to complete some of this work in your other milestones, during this project you will be refining and adding to your earlier submissions before bringing everything together. Note that you will be working on your 3D scene in Visual Studio but will also submit a written design decisions document discussing your approach throughout the process.3D ObjectsCreate low-polygon 3D representations of real-world objects. Make sure you have at least four completed objects in your 3D scene. At least one of the objects you create should be made using two or more primitive shapes. Note that the object you completed in a previous milestone can count as one of your four. Utilize organized geometry and ensure that polygons (triangles) on each 3D model are well spaced and connected. To minimize complexity and save 3D modeling time, the polygon count for your objects should not exceed 1,000 triangles. As you work, remember to think in terms of simple shapes and ask yourself what primitive 3D shapes go into making up each object in your scene. Four of the following primitive shapes must appear at least once in your creation:CubeCylinderPlanePyramidSphereTorusApply accurately projected textures to a 3D model. You must select two objects to texture. Note that you should have already textured one object in a previous milestone. If you use that object here, it will count as one of your two. As you work, the textures you select should be royalty-free images with resolutions of 1024 x 1024 pixels or higher. Please refer to the Sourcing Textures Tutorial, linked in the Supporting Materials section, for guidance on how to locate images that can be used for textures.Apply lighting to create a polished visualization of 3D models. You must include a minimum of two light sources, and at least one of them should be colored. Note that the light you worked on in a previous milestone counts as one of your two lights. The light sources you create will need to capture all of the objects in the 3D world you are building, meaning they should be positioned at locations that do not cause parts of the objects to appear dark when moving the camera around them. While we recommend that you include a point light for one of your two lights, you may implement a directional light or spotlight if you choose. As you generate lighting, make sure that any lights are designed in a way that helps curate a final polished presentation. You will need to properly implement all components of the Phong shading model, including the following:AmbientDiffuseSpecularPlace objects appropriately, using the X, Y, and Z coordinates, relative to one another in the 3D world. As you work, be sure to match the photograph you selected as closely as possible by placing the objects in their proper locations. Note that when you first import code for the objects you created in previous weeks, the objects may overlap, as it is likely that they were all initially placed at 0, 0, 0.NavigationApply horizontal, vertical, and depth camera navigation around the 3D scene. The camera will be traversing the X, Y, and Z axes, and you should ensure it can capture all of the objects in your 3D scene. In a previous milestone, you already created some of this code. It is recommended that you use the code you have already created and then increase the radius of the camera’s orbit so it will correctly encompass all of the objects in the world you are building. You may find it easiest to add each object separately and then adjust the orbit radius or position of the camera each time. As you work, we recommend you use the following input devices:WASD keys: These keys should be used to control the forward, backward, left, and right motion.QE keys: These keys should be used to control the upward and downward movement.Apply nuanced camera controls to effectively view the 3D objects in the application. This should allow the orientation of the camera to change even though its location has not moved. You should focus first on pitch and yaw, but careful changes can be made to roll, keeping in mind that you may want the upward direction to stay in the same location. As you work, you will also want to code for adjustments in the speed of the movement so a user will have more control over how they explore the objects in the scene. We recommend you use the following input devices:Mouse cursor: This should be used to change the orientation of the camera so it can look up and down or right and left.Mouse scroll: This should be used to adjust the speed of the movement, or the speed the camera travels around the scene.Create perspective and orthographic displays of the 3D world. Use the tap of a keyboard key to allow a user to change the viewport display of all objects in the scene between orthographic (2D) and perspective (3D) views at will. To accomplish this, you will be switching the function call to retrieve either the perspective or orthographic projection matrix. Note that you will be keeping the camera in the same orientation that you already developed in previous criteria.Best PracticesApply coding best practices in formatting, commenting, and functional logic. To accomplish this, be sure to complete the following:Employ formatting best practices by providing program code that is easy to read and follows industry standard code formatting practices, such as indentation and spacing.Employ commenting best practices to ensure project source code is briefly and clearly explained using descriptive comments.Employ functional coding logic best practices to ensure the program runs as expected. Note that not everything should be written in a single function; it should be well modularized.
OpenGL in C++

Role of Government

Role of Government. I’m working on a History exercise and need support.

We have a lot of historical precedent to consider now. Currently, this is a very politically charged, partisan, and toxic debate. We have a government that has reached a stalemate where very few of our real problems are being addressed or even discussed. Political ideology, primarily regarding the role of government, is the primary culprit.
Let’s start again with the same basic question, what do you think the role of government should be in providing for the social welfare of the American people? Do you have any suggestions for breaking the stalemate in Washington and in your state capitol? Finally, and this is a tough one, do you think it is possible to eliminate poverty? How or Why Not?
Role of Government

MATH 141 Howard Community College Math Worksheets

online dissertation writing MATH 141 Howard Community College Math Worksheets.

Section 4.1 Written Homework 4.2 Written Homework 141 Written Homework Section 4.3 (March 2020).pdf 4.4 Written Homework 141 Written Homework Section 4.5 (March 2020).pdf 141 Written Homework Section 4.6.pdfSection 5.1-5.2 Written HomeworkSection 5.3 Written Homework
MATH 141 Howard Community College Math Worksheets

PROMPTS 1 AND2 601

PROMPTS 1 AND2 601.  LOGIN INFO:  https://canvas.westcoastuniversity.edu/USER [email protected]: Student123CLASS OC_NURS601B_202105SUIOL_OL-BNURS 601B APRN Bridge course 202105SUIOL OL-BE-BOOK:  Family Health Care Nursing: Theory, Practice, and Research, 5th Edition – 2 Year OptionPLEASE RESPOND TO WEEK 2 PROMPT AT LEAST 2 REFERENCES CITED AT THE END OF EACH PROMT,1 PAGE PER PROMPT REFERENCES SHOULD BE NO OLDER THAN 5 YEARS PLEASE USE THE E BOOK AS 1 OF REFERENCE . DO NOT POST NOTHING THROUGH CANVAS WEBSITE  BASED ON ORDER= #ESS80688 prompt week 2 601 Please respond to the discussion prompt1 AND 2 Read the article, “Increasing the Capacity of Primary Care Through Enabling Technologies”  download  https://canvas.westcoastuniversity.edu/courses/6516/files/1043952/download?wrap=1and discuss the different types of technologies that could improve access and the care provided in the primary care setting.Discuss the challenges to achieving improved technology and logistical issues for the primary care setting. PROMPT1 SHIELA Primary care is essential as it is the first point contact in healthcare system. It is used as a vehicle for delivering continuous, comprehensive, and coordinated treatment. It might be especially useful in dealing with the issues that people with chronic diseases and numerous comorbidities confront. Enabling technology has the potential to increase primary care clinicians’ ability to deliver integrated, accessible care that channels knowledge to patients and integrates specialized consultations into primary care clinics. Different types of technologies that can improve access in primary care setting: 1. Telehealth- refers to the use of digital information and communication technology, such as computers and mobile devices, to access and manage health care services remotely. These might be technology that you use at home or that your doctor employs to help improve or supplement health-care services (Mayoclinic). 2. Patient Portal- It’s possible that your primary care practice has an online patient portal. These portals provide an alternative to email, which is an unsafe method of communicating sensitive medical information. A portal is a more secure online tool for doing the following tasks:Make an appointment with your doctor or a nurse.Prescription refills can be requested.Examine test results and prior visit reports. 3. Virtual Appointments- Virtual appointments, which allow you to see your doctor or nurse via online videoconferencing, may be available at some clinics. When an in-person visit isn’t needed or practical, these appointments allow you to continue receiving treatment from your usual doctor. 4. Wireless or video-based programs- can deliver structured rehabilitation protocols, while home-based sensors can adjust lighting and temperature. Assistive technologies and robotics can improve mobility and performance of activities of daily living, and wireless or video-based programs can deliver structured rehabilitation protocols. 5. There are several technological solutions available to assist in determining indications, prescribing, dispensing, organizing, reminding, and monitoring efficacy. The use of these tools can help to minimize the likelihood of adverse events and encourage proper drug usage.   Challenges to achieving technology: 1. Even when sensors and devices are precise and trustworthy, integrating the data provided by these wearable devices into primary care can be difficult. Data must be transformed into actionable and meaningful information that is easily available to the PCP while avoiding false alarms.  2. Technology is just an assistive tool in chronic disease management. Engaging patients in personal goal-setting and encouraging behavior change are still  essential components of effective chronic illness treatment. There are few large, well-controlled studies examining the use of technology in chronic illness management, and the findings are varied (Young, H., et al, n.d).   References: Mayoclinic (n.d).  Telehatlh:Technology meets healthcare. https://www.mayoclinic.org/healthy-lifestyle/consumer-health/in-depth/telehealth/art-20044878 Young,H., Nesbitt, T. (n.d).  Increasing the Capacity of Primary Care through enabling technologies PROMPT 2  SHADIThe role of primary health care provider care includes patient care coordination with several chronic health conditions (Young & Nesbitt, 2017). The primary health care providers can combine chronic health care services with specialty care by utilizing technology that benefits the patients more comprehensively (Young & Nesbitt, 2017). Additionally, technology integration with health care empowers the patients with more effective communication, self-management, and more engagement in their medical care (Young & Nesbitt, 2017). The emerging health technologies in four different areas, body, home, community, and primary care clinical setting, assist the primary health care providers in managing the patients’ chronic health conditions (Young & Nesbitt, 2017). These mobile health technologies can be challenging for the primary health care providers to integrate into the daily work hours and the patients’ care process (Young & Nesbitt, 2017). The Body sensors and monitors provide data that could be beneficial in managing health conditions outside the actual clinical setting (Young & Nesbitt, 2017). The patients with chronic health conditions who are going through medication changes, at higher risk for getting hospitalized, or require changing behaviors for targeted medical goals are good candidates for in-home sensors and monitors (Young & Nesbitt, 2017). These monitoring at-home devices include blood glucose monitors, sleep devices such as CPAP, O2 saturation monitoring device, pulse oximeter, blood pressure cuffs, vital signs, daily activity pattern monitors, medication sensors, location monitors, gait monitor, vital signs, sleep, blood glucose, activity patterns, and signals of ingestion of prescribed medication (Young & Nesbitt, 2017). All these monitors and tools get connected to wireless communication systems and stored in an electronic health record linked to the healthcare providers’ centralized data, which can be transcribed for diagnostic purposes, interventions, and treatments (Young & Nesbitt, 2017).  Also, several older adults want to stay home for the long term and planning to use home-based technology devices such as sensors and other monitoring systems (Young & Nesbitt, 2017). Smart homes can recognize movements, security, fall prevention, or change of routine activities (Young & Nesbitt, 2017). They are equipped with cameras, bed sensors to check the individual presence in the bed, motion monitors, and body weight sensors; door sensors, drawers, and medication dispensing tools to assess medication compliance (Young & Nesbitt, 2017). This information gathered through technology is more reliable and factual than diary records through patients’ recollections (Young & Nesbitt, 2017). The other aspect of technology integration in the health care system is that the individuals in the community settings utilize the internet for health information (Young & Nesbitt, 2017). Additionally, they also connect to the support groups with similar health conditions, making the patient feature to promote health and prevent diseases (Young & Nesbitt, 2017). In addition, E Clinic and telehealth can bring patients and physicians with different kinds of specialty to the patients to serve a higher quality of care (Young & Nesbitt, 2017). On the other hand, there are some concerns in using digital and high technology devices’ roles in the patients’ privacy and accuracy and security (Young & Nesbitt, 2017).  Challenges to integrating the technology in medical health devices, including barriers such as connection, reliable sensors, apps, and reimbursement methods, are the issues that must be addressed (Young & Nesbitt, 2017).  Data must get transformed into a reliable information format and accessible to the primary health care providers without inaccurate information; otherwise, is alarming (Young & Nesbitt, 2017). Primary health care providers have reservations regarding their duties to intervene in the patients’ treatments based on the sensors in the actual time, increasing their liability and can affect the flow of work in the actual clinical setting (Young & Nesbitt, 2017). Additionally, some patients are concern about privacy issues while utilizing these devices (Young & Nesbitt, 2017).  Also, health information technology might not be available to all Americans, especially older patients with a lack of knowledge in the technology era (Young & Nesbitt, 2017).  Proper application of each mobile health technology system is known to have technical and non-technical challenges that play a crucial role in successfully and effectively applying these technologies (Mohammadzadeh & Safdari, 2014). The successful application of mobile-based techniques is facing challenges, including the accuracy of vital signals, compatibility between different systems, transmission capacity limitations, health care quality services, battery life limitation in devices, security, and confidentiality (Mohammadzadeh & Safdari, 2014). Providing adequate bandwidth, preparation of standard tools, insurance coverage, patient technical support,  adaptable wireless technologies, user-friendly, ethically oriented programmed devices, proper policies, guidelines using these technologies, privacy, and data security are all crucial in the successful application of these systems ( Mohammadzadeh & Safdari, 2014).ReferencesMohammadzadeh, N., & Safdari, R. (2014). Patient monitoring in mobile health: Opportunities and challenges. Medical archives (Sarajevo, Bosnia, and                                                      Herzegovina), 68 (1), 57–60.                                                     https://doi.org/10.5455/medarh.2014.68.57-60Young, H. M., & Nesbitt, T. S. (2017). Increasing the capacity of primary care through enabling technology. Journal of General Internal Medicine, 32(4), 398–                                               403.                                                https://doi-org.westcoastuniversity.idm.oclc.org/10.1007/s11606-016-3952-3PROMPTS 1 AND2 601

Physics question 12 hw 21

Physics question 12 hw 21.

What is the longest wavelength in the Paschen series of atomic spectra?Question 12 options:1) 2.216 × 10–6 m2) 8.204 × 10–7 m3) 5.522 × 10–6 m4) 6.756 × 10–5 m5) 1.875 × 10–6 m
Physics question 12 hw 21

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