There are plenty of unit converters available online (like this one). This web tool is a unit converter for civil engineers.What makes it different from thousand others online is itsease of use. It provides all the units that you might needfor your engineering conversions between different metricand US units.
I'm working for a structural engineering firm that normally works in Architectural scale. Currently I'm working on a project with Seattle Public Utilities. There is a civil engineering firm that is running the project. They are creating sheets and xrefs and sending them out to the subconsultants to work on. They are all coming to me in decimal units. I'm trying to convert the entire file to architectural units. I've managed to get it to work in model space by changing the drawing units to architectural. However, when I go to paper space and pick the correct viewport scale i want (1/8" = 1'-0") it is really huge. It's showing 12 times as large as it should for 1/8" scale. I'm sure this has to do with converting from Decimals to architectural, but I'm not sure what I'm missing. Please Help, I've attached a screen shot of how it looks at 1/8" scale and how it should look, which is at 1/32" scale.
Civil Engineering Unit Converter Free Download
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Civil drawings are usually set to feet. You probably need to make the unit architectural units and inches. I find civil drawings are always the most confusing to get to work the way I want to use them. Sometimes I can just change the units to inches and it works, other times I need to change it to inches and then use the scale command and select the entire drawing and scale it down by 12.
I have the reverse problem. I'm a land surveyor and think inches are for worms, since I work with decimal feet. What I do is reduce it by 1/12 (/0833333333), then start a whole new drawing, copy the whole old drawing, and paste the whole thing on the new one. Then I can work with only civil units.
This is a unit converter for civil and environmental engineers, including length, area, volume, weight, flow rate, hydraulic loading rate, pressure, temperature. There are several unit converters available in Google extension now. However, none of them focus on the application in the civil/environmental field. For instance, I often need to convert flow rate from gpm to m3/second when I worked at a consulting firm as senior engineer. The hydraulic loading rate is also frequently calculated for reactor design, changing unit from gpm/ft2 to ft/second.Compared to version 0001, the version 0002 fixed a bug in conversion of temperature. It also created a better user interface than the first version.
Everyone in our Applied Measurements office has this engineering unit conversion calculator on their computer. It proves invaluable time and again when an exact conversion from one set of engineering units to another is required quickly. In addition to pressure, torque, force and distance, there are a wealth of other things that it can convert including temperature and computer bits & bytes!
Measurement is one of the most important aspects of civil engineering and without measurements, we cannot start any construction work. Here I have listed some basic measurement factors that are most commonly used in Unit conversion in Civil Engineering. Hope it will help you with your work.
One common unit conversion technique in civil engineering is dimensional analysis. This involves using the units of a measurement as a way to cancel out units in a calculation, making it easier to solve. For example, consider the following equation:
Another advanced unit conversion technique used in civil engineering is unit conversion using conversion factors. Conversion factors are ratios that can be used to convert between different units of measurement. For example, there are 0.3048 meters in one foot. This means that we can use the conversion factor of 0.3048 meters per foot to convert a measurement in feet to meters.
There are many other unit conversion techniques and tools used in civil engineering, including software programs and online calculators. It is important for civil engineers to have a strong understanding of unit conversion in order to accurately and effectively communicate and work with measurements in their projects.
In conclusion, unit conversion is an essential aspect of civil engineering. It allows professionals to express measurements in a standardized manner and to work with a variety of units of measurement. By understanding the basics of unit conversion, as well as some of the more advanced techniques, civil engineers can ensure that their calculations and projects are accurate and precise.
The Civil Engineering Graduate Diploma is a conversion programme enabling applicants with a degree in a related subject (for example mathematics, physics or geology) to take a qualifying year before moving on to a Civil or Structural Engineering MSc degree. By studying this programme, you have a unique opportunity to be awarded an accredited level 7 Civil Engineering MSc after just two years of study, opening up your career path to becoming a chartered civil engineer.
The Graduate Diploma in Civil Engineering is a tailored programme that lays a strong foundation in essential aspects like fluids, materials, soils, and structures crucial for a successful career as a Civil Engineer. The curriculum draws modules from our esteemed BEng/MEng Engineering (Civil) programmes' second and third years. Beyond structured learning, you'll engage in a paired civil engineering research project.
UCL's Graduate Diploma in Civil Engineering is designed to provide an immersive and comprehensive educational journey. Integrating traditional lectures, collaborative group projects, and personalized research, students are enveloped in a multifaceted learning environment. This approach ensures a profound comprehension of civil engineering while facilitating specialization in critical domains such as structural dynamics, sustainable design, geotechnics, transport, and more. Going beyond technical prowess, the program nurtures an understanding of how engineering choices intersect with wider societal and environmental contexts, equipping graduates to forge sustainable solutions.
This programme, a testament to our diverse expertise and industry ties, hones skills through collaborative teamwork experiences. Aspiring engineers benefit from a curriculum designed to propel them towards successful professional careers in civil engineering. Our flexible structure includes an array of optional modules, enabling students to tailor their learning journey to their passions and interests (subject to timetabling requirements).
Immerse yourself in a world-class education, fostered by a department renowned for its energetic ambiance and commitment to innovation. Elevate your skills, seize the chance to network with industry leaders, and position yourself at the forefront of civil engineering's future. Choose UCL for a transformative experience that equips you for a fulfilling career while exploring the dynamic realm of civil engineering.
With a comprehensive skill set and in-depth knowledge, graduates are poised to excel across various sectors, spearheading projects, influencing decisions, and contributing to the advancement of the engineering landscape. This degree not only opens doors to an array of prestigious employment opportunities but also sets a well-defined trajectory for a fulfilling and impactful career.
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These networking opportunities provide insights into real-world challenges, offer chances to learn from industry leaders, and pave the way for potential internships and job placements. Your interactions within this vibrant community will not only enrich your learning experience but also establish a valuable network that can shape your future in the civil engineering arena.
Advanced knowledge and contextual understanding: Engaging lectures, seminars, and tutorials ensure an in-depth grasp of Civil Engineering topics, extending to associated engineering and scientific domains. Graduates gain a profound understanding of the broader operational context of civil engineering, encompassing safety, environmental sustainability, social dynamics, and economic considerations.
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Intellectual, academic and research excellence: Graduates emerge equipped with a rich skill set applicable to diverse career paths. They grasp essential facts, theories, and principles underpinning civil engineering and its multidisciplinary intersections. Practical laboratory and workshop activities enhance their technical competence. 0852c4b9a8
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