仪表:从汽车上的燃油表到卫星上的传感器,仪表是大多数电子设备的核心组成部分。鉴于无人机和自动驾驶车辆的发展,仪表领域在未来几十年内具有充足的增长潜力。微电子学:技术进步取决于开发速度和功能越来越小的设备。微电子专家处于这一进步的最前沿,因为他们致力于在微观尺度上创造电子元件。材料科学和化学是这一专业的重要专业领域。电力系统:电力工程师在大型系统上工作,用于生成,存储和传输运行我们世界的电力。从大坝中的发电机到太阳能电池板领域到跨越国家的输电线路,电力专家倾向于从事大型项目。电气工程师学院课程。与大多数STEM领域一样,电气工程师必须参加数学和自然科学的基础课程,尤其是物理课程,如力学和电磁学。一些专业,如微电子学,也需要在化学和材料方面进行重要的课程学习,而生物电子学等领域则需要在生物科学方面有很强的基础。

英国华威大学Assignment代写:STEM领域

Instrumentation: From the fuel gauge on the car to the sensors on the satellite, the meter is a core component of most electronic devices. In view of the development of drones and autonomous vehicles, the instrumentation sector has sufficient growth potential in the coming decades. Microelectronics: Technological advances depend on devices that are slower in development and smaller in function. Microelectronics experts are at the forefront of this advancement as they are committed to creating electronic components on a microscopic scale. Materials science and chemistry are important areas of expertise for this profession. Power Systems: Power engineers work on large systems to generate, store, and transmit electricity that runs our world. From generators in dams to solar panels to transmission lines across countries, power experts tend to work on large projects. Electrical Engineering College Course. As with most STEM fields, electrical engineers must take foundation courses in mathematics and natural sciences, especially physics courses such as mechanics and electromagnetism. Some majors, such as microelectronics, also need to conduct important courses in chemistry and materials, while fields such as bioelectronics need to have a strong foundation in biological sciences.

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