Last updated on Jun 12, 2024
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Algebra and geometry
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Statistics and probability
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Computer software
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Sensors and instruments
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Critical thinking and problem solving
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Here’s what else to consider
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Math and analysis tools are essential for mechanics, whether you work on cars, machines, or systems. They help you measure, calculate, diagnose, and optimize your work. In this article, you will learn how to use some common math and analysis tools for mechanics and why they are important for your professional development and training.
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- Edouard Desjardins Video Game Writer - Narrative Designer 👉 eddesjardins.com 👈 - Physicist 💡
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- Ethan Wong Yew Hoe PhD Student at Rolls-Royce Nuclear University Centre, Imperial College London
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1 Basic math skills
As a mechanic, you need to have a solid grasp of basic math skills, such as arithmetic, fractions, decimals, percentages, ratios, and units. You use these skills every day to perform tasks such as reading gauges, converting measurements, adjusting settings, estimating costs, and checking specifications. You also need to be able to apply basic math formulas, such as the Pythagorean theorem, to solve problems involving angles, distances, and forces.
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- Ethan Wong Yew Hoe PhD Student at Rolls-Royce Nuclear University Centre, Imperial College London
Personally, I found math (even the most basic form) to be extremely helpful in everyday situations. As an engineer, we have to deal with a flurry of numbers on a daily basis and more often than not, these numbers play a vital role in many calculations. Having a grasp of basic fractions for example, allows us to make smart guesses or ‘guesstimations’ on the spot to determine if certain values make sense in the grand scheme of things. This eventually translates to efficiency on the job which maximises our productivity.
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2 Algebra and geometry
Algebra and geometry are more advanced math skills that can help you understand and manipulate complex relationships and shapes. You can use algebra to solve equations, simplify expressions, and find unknown values. You can use geometry to calculate areas, volumes, perimeters, and circumferences of various shapes. These skills can help you design, modify, or repair parts and components that have specific dimensions and properties.
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3 Statistics and probability
Statistics and probability are math skills that can help you analyze data and make predictions. You can use statistics to summarize, compare, and interpret numerical information, such as performance, efficiency, reliability, and quality. You can use probability to estimate the likelihood of events, such as failures, errors, or risks. These skills can help you improve your decision making, troubleshooting, and quality control.
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4 Computer software
Computer software is an analysis tool that can help you perform complex calculations, simulations, and visualizations. You can use computer software to create and manipulate models, graphs, charts, and diagrams that represent physical phenomena, such as motion, force, energy, and fluid dynamics. You can also use computer software to access and store data, such as manuals, codes, and records. Some examples of computer software that mechanics use are spreadsheets, CAD, MATLAB, and FEA.
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5 Sensors and instruments
Sensors and instruments are analysis tools that can help you measure and monitor physical parameters, such as temperature, pressure, voltage, current, and torque. You can use sensors and instruments to collect and display data, such as readings, signals, and waveforms. You can also use sensors and instruments to control and adjust variables, such as speed, flow, and resistance. Some examples of sensors and instruments that mechanics use are multimeters, oscilloscopes, thermometers, and tachometers.
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- Edouard Desjardins Video Game Writer - Narrative Designer 👉 eddesjardins.com 👈 - Physicist 💡
It is imperative to know how the sensor functions and collects data. When using a sensor, your are mainly observing a phenomenon through a specific lenses, which has inherent biases. Having a minimal knowledge of how the sensor works will help you asses the results in any situations. The greater the understanding of an instrument, the greater the versatility of the person using it.
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6 Critical thinking and problem solving
Critical thinking and problem solving are analysis skills that can help you apply math and analysis tools to real-world situations. You can use critical thinking and problem solving to identify and define problems, gather and evaluate information, generate and test solutions, and implement and review results. These skills can help you enhance your creativity, innovation, and efficiency.
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7 Here’s what else to consider
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