Electrical EngineeringThere has been a significant change in the field of electrical engineering due to various developments in this field. One of the changes that has occurred is the advanced consolidation of transactions within the international framework of electrical engineering. According to the framework, electrical engineers have experienced significant changes that have influenced the mode of operation as well as the rate of service delivery. Electrical engineers have increased their interest in aerospace engineering by converting some of their valuable assets and technologies into functional aerospace installations. This has influenced greater changes in the operations of engineers in both the land and space sectors. According to an article by Hennings et al., the discovery of microelectromechanical systems will contribute to the improvement of semiconductor processing. The discovery of tiny but effective gadgets has been considered one of the greatest discoveries of all time. The authors claim that the use of microelectromechanical devices helps improve performance and functionality. Additionally, the authors claim that the devices are cost-effective, reliable, and do not require more space like older gadgets. The authors analyze the performance of individual devices used in semiconductor processing. One of the devices the researchers analyzed is a low-rate mass controller. The researchers say the low-flow mass controller is space-efficient and can provide accurate measurements. Additionally, the device is very important to control the mass flow with changes in pressure and temperature. The device is therefore considered very effective, especially when applied to the medium of paper and various engineering designs in semiconductor processing. Works Cited Athavale, M. M, H. Q Yang and AJ Przekwas “Fluid-thermo-structures simulation methodology for MEMS applications”. Solid-State Sensors and Actuators 2.1 (1997): 1043 – 1046. Print. Hartenstein, R. "The Microprocessor Is No Longer General Purpose: Why Future Reconfigurable Platforms Will Win." » Innovative Silicon Systems 2.2 (1997): 2-12. Print.Henning, AK, Firch J, J M. Harris, EB Dehan, and A. Cozad “Microfluidic MEMS for semiconductor processing.” IEEE Components, Packaging, and Manufacturing Technology Society 21.4 (1998): 329-337. Henning, AK “Microfluidic MEMS for semiconductor processing.” Innovative Systems in Silicon 1.1 (1997): 340-349.Prasanna, VK “The power of dynamic reconfiguration. » Innovative Silicon Systems 2.1 (1997): 1. Print.