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... your consumer products in-house?</p>]]></content:encoded>
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<?xml version="1.0" encoding="UTF-8"?><rss version="2.0" xmlns:content="http://purl.org/rss/1.0/modules/content/" xmlns:dc="http://purl.org/dc/elements/1.1/" xmlns:sy="http://purl.org/rss/1.0/modules/syndication/" > <channel> <title>RSS Mechanical Engineering Structure</title> <link>https://www.wpg2.org/</link> <description>Mechanical Engineering Structure</description> <lastBuildDate>Sun, 21 May 2023 13:30:39 +0200</lastBuildDate> <language>en</language> <sy:updatePeriod>daily</sy:updatePeriod> <sy:updateFrequency>1</sy:updateFrequency> <item> <title>Mechanical Engineering Jobs companies</title> <description>Q: Do you accept entry level employees in engineering? A: Yes, entry level candidates should look under Students for more information. Q: What is the GPA requirement for an engineering job? A: At least a 3.0 GPA is required, but ...</description> <content:encoded><![CDATA[<img src="/img/mechanical_engineering_companies_encore_la_jolla.jpg" alt="Job Or A Real Environmental" align="left" /><p>Q: Do you accept entry level employees in engineering? A: Yes, entry level candidates should look under Students for more information. Q: What is the GPA requirement for an engineering job? A: At least a 3.0 GPA is required, but we prefer 3.5 or higher. Please note: the more years of experience you have, the less important the GPA becomes. Q: What software language experience do you look for? A: We use a variety of languages, including C, C++, C#, Java and Assembly. Q: What does it take to be a senior engineer at Garmin? A: At least 10 years of related experience. Consumer Engineering Q: What departments are within cartography? A: Marine, recreation and automotive. Q: How large is the Cartography Department? A: There are 90+ associates in the Cartography Department. Q: Do I need a bachelor’s degree if I’m interested in a cartography position? A: Yes, a 4 year degree in GIS/cartography/geography is required. We also prefer a bachelor’s of science rather than a bachelor’s of arts. Q: Do you accept entry level employees in cartography? A: Yes, entry level actually is preferred. Please look under Students for more information. Q: What is the GPA requirement for a cartography job? A: At least a 3.0 GPA is required, but we prefer 3.5 or higher. Q: Do I need to have an internship to get a cartography job? A: No, however, we prefer at least 1 internship. Q: What software does Garmin use in cartography? A: We use proprietary software similar to ARC GIS in our Cartography Department. We will teach associate’s how to use the program. Q: I am a design engineer. Do you have any jobs for that position? A: Yes, we do. Design Engineers develop FPGA code (write code, test, test for certification) and design circuits (schematic, layout, prototype, testing). Different types of hardware design include: Digital hardware design, RF hardware design and analog and power supply design. Q: What is the difference between an IT programmer and an engineering programmer? A: IT programmers work on systems that are used by internal employees at Garmin as well as our website. They work collaboratively with the User Experience (UX) and web teams in Communications. Whereas, our engineering software teams write code for our consumer products. Q: How large are your consumer engineering teams? A: We try to keep our teams fairly small, usually no more than 12 associates per team. Q: How is the consumer engineering division organized? A: The engineering division is organized by product line. In other words, we have specific teams assigned to fitness/outdoor, automotive OEM, PND (personal navigation device), etc. Q: Do you manufacture your consumer products in-house?</p>]]></content:encoded> <category><![CDATA[Mechanical Engineer Jobs]]></category> <link>https://www.wpg2.org/MechanicalEngineerJobs/mechanical-engineering-jobs-companies</link> <guid isPermaLink="true">https://www.wpg2.org/MechanicalEngineerJobs/mechanical-engineering-jobs-companies</guid> <pubDate>Sun, 21 May 2023 09:30:00 +0000</pubDate> </item> <item> <title>Robotic Vacuum and Mop</title> <description>Upside: Love this item! Very convenient for cleaning solid surface flooring more so than carpet. Carpet tends to run the battery down rather quickly. I was shocked at how much extra dust/dirt/hair Bob picked up that I had missed ...</description> <content:encoded><![CDATA[<img src="/img/bobi_robotic_vacuum_floor_cleaner.jpg" alt="I got the opportunity to" align="left" /><p>Upside: Love this item! Very convenient for cleaning solid surface flooring more so than carpet. Carpet tends to run the battery down rather quickly. I was shocked at how much extra dust/dirt/hair Bob picked up that I had missed when swiffering the floors. Most flooring in my house is solid surface and it's very time consuming to clean manually so Bob is the perfect solution to run 1x/day or every other day for keeping the floors clean and free of dirt. It also frees me up to do other household chores while Bob is running and I typically manage to get the rest of the entire chore list completed about the same time Bob is done with the floors. Bob cuts my chore time in 1/2. So worth the money. Downside: Tangles up in any cords you may have if device can fit under tables/stands. I highly recommend do a scan prior to running to ensure any potential entanglements, etc are attended to so Bob can clean undisturbed. Bob tends to get stuck under some furniture items and in attempts to remove itself, it jams up more and I have to keep getting up to pry Bob out from under the TV stand for instance. Bob does let me know he is stuck with a beep though, so it's a pretty quick fix. Bob is not really all that quiet in my opinion considering I paid extra for the \"quiet model\" however, in all fairness, it IS quieter than a vacuum cleaner. I believe the level of noise generated is dependent upon the floor surface. The hardwood floors in my office for instance are quieter than the ceramic tile floors in the kitchen/bath areas.</p>]]></content:encoded> <category><![CDATA[Robot]]></category> <link>https://www.wpg2.org/Robot/robotic-vacuum-and-mop</link> <guid isPermaLink="true">https://www.wpg2.org/Robot/robotic-vacuum-and-mop</guid> <pubDate>Tue, 16 May 2023 09:29:00 +0000</pubDate> </item> <item> <title>First law of Thermodynamics Closed Systems</title> <description>We consider the First Law of Thermodynamics applied to stationary closed systems as a conservation of energy principle. Thus energy is transferred between the system and the surroundings in the form of heat and work, resulting in ...</description> <content:encoded><![CDATA[<img src="/img/presentation_chapter_4_energy_analysis_of.jpg" alt="Slide 1" align="left" /><p>We consider the First Law of Thermodynamics applied to stationary closed systems as a conservation of energy principle. Thus energy is transferred between the system and the surroundings in the form of heat and work, resulting in a change of internal energy of the system. Internal energy change can be considered as a measure of molecular activity associated with change of phase or temperature of the system and the energy equation is represented as follows: Heat (Q) Energy transferred across the boundary of a system in the form of heat always results from a difference in temperature between the system and its immediate surroundings. We will not consider the mode of heat transfer, whether by conduction, convection or radiation, thus the quantity of heat transferred during any process will either be specified or evaluated as the unknown of the energy equation. By convention, positive heat is that transferred from the surroundings to the system, resulting in an increase in internal energy of the system Work (W) In this course we consider three modes of work transfer across the boundary of a system, as shown in the following diagram: In this course we are primarily concerned with Boundary Work due to compression or expansion of a system in a piston-cylinder device as shown above. In all cases we assume a perfect seal (no mass flow in or out of the system), no loss due to friction, and quasi-equilibrium processes in that for each incremental movement of the piston equilibrium conditions are maintained. By convention positive work is that done by the system on the surroundings, and negative work is that done by the surroundings on the system, Thus since negative work results in an increase in internal energy of the system, this explains the negative sign in the above energy equation.</p>]]></content:encoded> <category><![CDATA[First Law]]></category> <link>https://www.wpg2.org/FirstLaw/first-law-of-thermodynamics-closed-systems</link> <guid isPermaLink="true">https://www.wpg2.org/FirstLaw/first-law-of-thermodynamics-closed-systems</guid> <pubDate>Mon, 08 May 2023 09:18:00 +0000</pubDate> </item> <item> <title>Second law of thermodynamics Creationism</title> <description>Reationists have long argued that evolution violates the second law of thermodynamics and thus is impossible. The following FAQs address why that is not true. A short and to-the-point answer to this creationist claim. Brief ...</description> <content:encoded><![CDATA[<img src="/img/physics_answers_in_genesis.jpg" alt="The New Answers Book 1–2" align="left" /><p>Reationists have long argued that evolution violates the second law of thermodynamics and thus is impossible. The following FAQs address why that is not true. A short and to-the-point answer to this creationist claim. Brief replies to various thermodynamics claims by antievolutionists. Does evolution violate the second law of thermodynamics? Creationists say yes. This article describes in detail why the creationists are wrong. Creationists have created a 'voodoo' thermodynamics based solely on metaphors in order to convince those not familiar with real thermodynamics that their sectarian religious views have scientific validity...</p>]]></content:encoded> <category><![CDATA[Second Law]]></category> <link>https://www.wpg2.org/SecondLaw/second-law-of-thermodynamics-creationism</link> <guid isPermaLink="true">https://www.wpg2.org/SecondLaw/second-law-of-thermodynamics-creationism</guid> <pubDate>Wed, 03 May 2023 09:17:00 +0000</pubDate> </item> <item> <title>Fundamentals of Engineering Thermodynamics Moran</title> <description>Moran, Michael J.; Shapiro, Howard N.; Boettner, Daisie D.; Bailey, Margaret B. Author International Edition Book Description Wiley. Book Condition: New. International Edition, Brand New, Paperback, Delivery within 6-14 business ...</description> <content:encoded><![CDATA[<img src="/img/moran_shapiro_fundamentals_engineering_thermodynamics_7th.jpg" alt="Moran shapiro" align="left" /><p>Moran, Michael J.; Shapiro, Howard N.; Boettner, Daisie D.; Bailey, Margaret B. Author International Edition Book Description Wiley. Book Condition: New. International Edition, Brand New, Paperback, Delivery within 6-14 business days, Same Contents as U.S Edition, ISBN and Cover design may differ. Choose Expedited shipping for delivery within 4-7 business days.We do not ship to PO Box, APO, FPO Address. In some instances, subjects such as Management, Accounting, Finance may have different end chapter case studies and exercises...</p>]]></content:encoded> <category><![CDATA[Engineering Thermodynamics]]></category> <link>https://www.wpg2.org/EngineeringThermodynamics/fundamentals-of-engineering-thermodynamics-moran</link> <guid isPermaLink="true">https://www.wpg2.org/EngineeringThermodynamics/fundamentals-of-engineering-thermodynamics-moran</guid> <pubDate>Tue, 02 May 2023 08:25:00 +0000</pubDate> </item> <item> <title>Second law of thermodynamics for Dummies</title> <description>In physics, the second law of thermodynamics says that heat flows naturally from an object at a higher temperature to an object at a lower temperature, and heat doesn’t flow in the opposite direction of its own accord. The law ...</description> <content:encoded><![CDATA[<img src="/img/industrial_design_software_thermodynamics_for_dummies.png" alt="Thermodynamics For Dummies" align="left" /><p>In physics, the second law of thermodynamics says that heat flows naturally from an object at a higher temperature to an object at a lower temperature, and heat doesn’t flow in the opposite direction of its own accord. The law is certainly borne out in everyday observation — when was the last time you noticed an object getting colder than its surroundings unless another object was doing some kind of work? You can force heat to flow away from an object when it would naturally flow into it if you do some work — as with refrigerators or air conditioners — but heat doesn’t go in that direction by itself. You have...</p>]]></content:encoded> <category><![CDATA[Second Law]]></category> <link>https://www.wpg2.org/SecondLaw/second-law-of-thermodynamics-for-dummies</link> <guid isPermaLink="true">https://www.wpg2.org/SecondLaw/second-law-of-thermodynamics-for-dummies</guid> <pubDate>Mon, 01 May 2023 09:24:00 +0000</pubDate> </item> <item> <title>Applications of Thermodynamics in Engineering</title> <description>Identifier: appliedthermodyn01enni Title: Applied thermodynamics for engineers Year: 1913 (1910s) Authors: Ennis, William Duane, 1877- Subjects: Thermodynamics Publisher: New York, Van Nostrand Contributing Library: The Library ...</description> <content:encoded><![CDATA[<img src="/img/image_from_page_78_of_applied.jpg" alt="Image from page 78 of Applied thermodynamics for engineers (1913" align="left" /><p>All materials can exist in three phases:, , and . All one component systems share certain characteristics, so that a study of a typical one component system will be quite useful. For this analysis, we consider heat transferred to the substance at constant pressure. The above chart shows temperature vs. specific volume (1/density) curves for at three different constant pressures. The three line-curves labeled p1, p2, and pc above are isobars, showing conditions at constant pressure. When the liquid and vapor coexist, it is called a saturated state. There is no change in temperature or pressure when liquid and vapor are in equilibrium, so that the temperature is called saturation temperature and the pressure is called saturation pressure. Saturated states are represented by the horizontal lines in the chart. In the temperature range where both liquid and vapor of a pure substance can coexist in equilibrium, for every value of saturated temperature, there is only one corresponding value of saturation pressure. If the temperature of the liquid is lower than the saturation temperature, it is called subcooled liquid. If the temperature of the vapor or gas is greater than the saturation temperature it is called superheated vapor. The amount of liquid and vapor in a saturated mixture is specified by its quality x, which is the fraction of vapor in the mixture. Thus, the horizontal line representing the vaporization of the fluid has a quality of x=0 at the left endpoint where it is 100% liquid and a quality of x=1 at the right endpoint where it is 100% vapor. The blue curve in the preceding diagram shows saturation temperatures for saturated liquid i. e. where x=0. The green curve in the diagram shows saturation temperatures for saturated vapor i. e. where x=1. These curves are not isobars.</p>]]></content:encoded> <category><![CDATA[Engineering Thermodynamics]]></category> <link>https://www.wpg2.org/EngineeringThermodynamics/applications-of-thermodynamics-in-engineering</link> <guid isPermaLink="true">https://www.wpg2.org/EngineeringThermodynamics/applications-of-thermodynamics-in-engineering</guid> <pubDate>Fri, 28 Apr 2023 11:05:00 +0000</pubDate> </item> <item> <title>Thermodynamics an Engineering Approach 6th</title> <description>CHE2164 and MEC2405 textbooks Thermodynamics An Engineering Approach, 6th edition, by Cengel Boles Condition: Good (There are some highlights and handwritten notes in the textbooks but not over the ...</description> <content:encoded><![CDATA[<img src="/img/che2164_and_mec2405_textbooks_thermodynamics_an.jpg" alt="IMG_1932" align="left" /><p>Fundamental concepts and laws of thermodynamics and thermodynamic properties of engineering materials, with applications to mass and energy analysis of chemical processes, power cycles, and refrigeration cycles. Includes laboratories. Prerequisite(s): ENGG180 or ENMP102 Required book(s): Y.A. Cengel and M.A. Boles Thermodynamics: An Engineering Approach 6th edition (McGraw-Hill) Internal assessment/examination ratio: 1:1 Lecture Timetable Note: There may be other timetabled events for this paper such as tutorials or workshops. Visit the online timetable for this paper for more details You will be sent an enrolment agreement which will confirm your fees. Tuition fees shown above are indicative only and may change. There are additional fees and charges related to enrolment - please see the Table of Fees and Charges for more information. Occurrence Domestic International Tuition Resource 16A (HAM) $1191 $0 $5233</p>]]></content:encoded> <category><![CDATA[Engineering Thermodynamics]]></category> <link>https://www.wpg2.org/EngineeringThermodynamics/thermodynamics-an-engineering-approach-6th</link> <guid isPermaLink="true">https://www.wpg2.org/EngineeringThermodynamics/thermodynamics-an-engineering-approach-6th</guid> <pubDate>Sun, 23 Apr 2023 11:00:00 +0000</pubDate> </item> <item> <title>Job Outlook for Mechanical Engineers</title> <description>The need for engineers is expected to only increase. Right now in Utah, even with all the qualified engineering graduates, 1, 000 additional engineers are needed every year! Engineers generally earn more money than other college ...</description> <content:encoded><![CDATA[<img src="/img/mechanical_robotics_engineers_see_demand.jpg" alt="Robotics, a branch of" align="left" /><p>The need for engineers is expected to only increase. Right now in Utah, even with all the qualified engineering graduates, 1, 000 additional engineers are needed every year! Engineers generally earn more money than other college graduates with four-year degrees and society will always need engineers to creatively solve problems. Employment opportunities are highly diverse. For instance, Mechanical Engineers design advanced materials and structures to meet the demands of supersonic and hypersonic flight and space travel...</p>]]></content:encoded> <category><![CDATA[Mechanical Engineering Jobs]]></category> <link>https://www.wpg2.org/MechanicalEngineeringJobs/job-outlook-for-mechanical-engineers</link> <guid isPermaLink="true">https://www.wpg2.org/MechanicalEngineeringJobs/job-outlook-for-mechanical-engineers</guid> <pubDate>Thu, 20 Apr 2023 10:58:00 +0000</pubDate> </item> <item> <title>Electrical and Mechanical Engineering</title> <description>I am a senior, and for UC applications I need to choose my major. I basically really like three subjects, math, computer science, and physics, all equally. Mechanical and electrical engineering seem to fit this the best, but I am ...</description> <content:encoded><![CDATA[<img src="/img/electrical_and_mechanical_engineering.png" alt="Our electrical design" align="left" /><p>I am a senior, and for UC applications I need to choose my major. I basically really like three subjects, math, computer science, and physics, all equally. Mechanical and electrical engineering seem to fit this the best, but I am not sure which one to pick. I have taken the Physics AP C exam, EM and Mechanics, and I thought both were very very very interesting, not sure if one was better than the other. For electrical I have heard the most electrical engineers eventually become computer scientists or programmers, which is what I for sure do not want to do, because although I do like computers I just have to be working with all three subjects, and I might go insane debugging code all the time (though I'm not bad at it)...</p>]]></content:encoded> <category><![CDATA[Mechanical Engineering]]></category> <link>https://www.wpg2.org/MechanicalEngineering/electrical-and-mechanical-engineering</link> <guid isPermaLink="true">https://www.wpg2.org/MechanicalEngineering/electrical-and-mechanical-engineering</guid> <pubDate>Thu, 20 Apr 2023 05:58:00 +0000</pubDate> </item> </channel></rss>If you would like to create a banner that links to this page (i.e. this validation result), do the following:
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