Tell the story of something that happened during a particularly memorable trip you had. The travel could have been for a vacation, as part of a move or other big life change, or for any other reason. You might clarify the reason for the travel, what the travel conditions were, how the new place felt different or similar to the old place, and how the trip had lasting effects on you as a person.Tell the story of a major challenge you faced in your life. What made it such a challenge? How equipped were you to deal with it? Did you overcome the challenge or not? Either way, what did you learn from the challenge and how did it change you in the end?All narrations should present organized arguments about the meaning of the experience in the context of your overall life. However, it’s important not to forget the lessons of the Descriptive Essay. Don’t stay in the world of the abstract. Good narratives are vivid, include plenty of concrete details, and show the story as if it’s unfolding in the moment, rather than just telling or summarizing basic events. Show your reader what the experience felt like in the moment and use that as a jumping off point to discuss the lasting abstract impact the experience has had on your life.Personal narratives should draw on your own memories and experiences. As such, the use of personal pronouns such as “I,” which are usually not considered academic, would be appropriate here. Outside sources, unless you discuss an exception with me prior to submission, should not be included, as this is your story to tell. Your essay should contain a thesis statement that gives me an idea of how you will back this point up and how your support will be organized throughout. It should also fulfill the other requirements of your rubric.500 words (two pages double spaced 12 point font). Please include your name, a title, the date, and your class hour at the top, as well as page numbers throughout. Hope the paper divide into 5 paragraph. Stance:(Topic) First support point: Second support point: Third support point: And conclusion I am an exchange student, I hope the topic can refer to the culture
ENG1101 narration
The half-life of cesium-137 is 30 years. Suppose we have a 17-g sample.(b) Find a function m(t) = m0e−rt that models the mass remaining after t years. (Round your r value to four decimal places.) m(t) =
The half-life of cesium-137 is 30 years. Suppose we have a 17-g sample.
Video Response – Groundhog Day
Video Response – Groundhog Day.
Focus on the points of philosophical significance rather than the plot or events depicted.Video responses will be available using BlackBoard and should be 2-3 pages.Guiding QuestionsFilm “Groundhog Day” What is the guiding theme of the film?What is (are) the dominating ethical questions the film raises?In what way(s) does the film make an appeal to emotion and/or appeal to reason through sound arguments?How would you describe or categorize the main philosophical system on display?Chose one central element of the controversy to agree or disagree with.What contribution does this film make to society?What are the strengths and limitations of the film?
Video Response – Groundhog Day
Question 2
essay helper free Question 2. I’m trying to learn for my Management class and I’m stuck. Can you help?
1. Choose and list at least three of the courses (see the attached papers) you completed and discuss some of the key things you learned that were particularly interesting and/or useful for you.
2. Discuss why you found this information to be interesting or useful.
3. How have you or will you apply some of what you learned from these particular courses
Question 2
LIDAR (Light Detection and Ranging) Technology
LIDAR (Light Detection and Ranging) Technology. LIDAR (Light detection and ranging) is a method of determining the topography of the surface using a laser. These pulses generated are recorded which provide precise three-dimensional information about the surface. Today various platform LIDAR is available in the market and those are chosen based on the project requirement. E.g. terrestrial LIDAR, which is fixed in ground, airborne LIDAR, which is placed on a flying platform like an airplane or helicopter and space borne Laser which is fixed on satellite platforms. Two types of LIDAR are available, topographic, and bathymetric. Topographic LIDAR use near infrared laser, whereas bathymetric LIDAR us green light which penetrate the water. The use of airborne laser (LIDAR) for measuring the depth of near shore coastal waters and lakes from an aircraft is getting more popular in surveying industry. The demand for faster and cheaper coastline survey can be replaced by using airborne LIDAR technology. The Airborne LIDAR bathymetry was successfully tested by US, Canada, and Australia in the early 1970s. The system built by Canadian Hydrographic Service (CHS) in 1986, the LARSEN 500 system was the first operational airborne LIDAR bathymetry system. Airborne LIDAR bathymetry has proven to be more accurate, cost effective, efficient, and fast method of collecting shallow water bathymetry data than the sonar technology which is less efficient and hard to operate in many cases. The airborne laser bathymetry involves the pulse laser transmitter which emits green and infrared beams. The wave length of green laser is 532 nm which can penetrate coastal water with less attenuation and can be used for coastal bottom detection. The infrared (IR) cannot penetrate the water and can be used for sea surface detection. The bathymetry sensors consist of four major components, the GPS receiver which records the aircraft position, the inertial measurement unit (IMU) which gives the roll, pitch and yaw of the aircraft, the laser scanner which emits the signal and the receiver sensor which read the returning signal. The LIDAR system can record the accurate measurements by knowing the position and orientation of all these components. These sensors can measure thousands of points per seconds The transmitted laser pulse from the aircraft partially reflected from the water surface and the seabed back to the receiver. By recording the time taken from the laser to reach the surface and back to the receiver and speed of the light in air and in water, the distance to the sea surface and sea bed can be calculated. This information is used to calculate the water depth. The bathymetric LIDAR system also includes RGB cameras which acquire better color photo which is used as a quality check tool in identification of bathymetric features and aids to navigation. Airborne LIDAR bathymetry has various advantages over other traditional water borne surveying techniques. It has tendency to perform survey quickly, efficiently within small operational window. This can cover a very large area and all those areas where it would be difficult to survey using traditional surveying methods. The ability of the airborne LIDAR to operate from the air gives the surveyor a flexibility that survey vessel surveyors could hardly imagine. The modern airborne LIDAR now comes with oblique digital photography which can be merged with point cloud. These georeferenced images are used during the validation process. There are numerous limitations of an airborne LIDAR bathymetry system. The maximum depth the laser can penetrate depends on the clarity of water. The maximum surveyable depths depend on several systems used and the environment condition. The green laser penetrates and travel maximum depth if the water is clear water. The maximum surveyable depths ranges from 50 meters in clean water to less than 10 meters in murky water. The use of airborne LIDAR system is not appropriate for small target detection. The spatial resolution obtained from the airborne LIDAR is not as good as for modern high frequency sonar. Small target detection using airborne LIDAR may be possible by significantly increasing the survey density which becomes more expensive. Various environmental factors like rain, fog, clouds, high winds, high waves, etc. can cause problem when carrying airborne LIDAR survey. Surveying in rain cause laser beam to backscatter to the receiver bye raindrops. The backscatter signal by the mist, fog can result in false surface heights. Airborne survey in high wind can pose a danger when flying near a coastal mountain and cause changes in survey density. Airborne LIDAR bathymetry technology can be used for many applications like charting, environmental mapping, flood plain and coastal mapping etc. https://www.gim-international.com/content/article/technology-in-focus-bathymetric-LIDAR-2 LIDAR (Light Detection and Ranging) Technology
Health Promotion: Prevention of Disease Case Study
Health Promotion: Prevention of Disease Case Study. Paper details Instructions: Read the following case study and answer the reflective questions. Please provide rationales for your answers. Make sure to provide a citation for your answers CASE STUDY: Family Member with Alzheimer’s Disease: Mark and Jacqueline Mark and Jacqueline have been married for 30 years. They have grown children who live in another state. Jacqueline’s mother has moved in with the couple because she has Alzheimer’s disease. Jacqueline is an only child and always promised her mother that she would care for her in her old age. Her mother is unaware of her surroundings and often calls out for her daughter Jackie when Jacqueline is in the room. Jacqueline reassures her mother that she is there to help, but to no avail. Jacqueline is unable to visit her children on holidays because she must attend to her mother’s daily needs. She is reluctant to visit friends or even go out to a movie because of her mother’s care needs or because she is too tired. Even though she has eliminated most leisure activities with Mark, Jacqueline goes to bed at night with many of her caregiving tasks unfinished. She tries to visit with her mother during the day, but her mother rejects any contact with her daughter. Planning for the upcoming holidays seems impossible to Mark, because of his wife’s inability to focus on anything except her mother’s care. Jacqueline has difficulty sleeping at night and is unable to discuss plans even a few days in advance. She is unable to visit friends and is reluctant to have friends visit because of the unpredictable behavior of her mother and her need to attend to the daily care. Reflective Questions 1. How do you think this situation reflects Jacqueline’s sense of role performance? 2. How do you think that Jacqueline may be contributing to her own health?Health Promotion: Prevention of Disease Case Study