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Ontario Tech acknowledges the lands and people of the Mississaugas of Scugog Island First Nation.

We are thankful to be welcome on these lands in friendship. The lands we are situated on are covered by the Williams Treaties and are the traditional territory of the Mississaugas, a branch of the greater Anishinaabeg Nation, including Algonquin, Ojibway, Odawa and Pottawatomi. These lands remain home to many Indigenous nations and peoples.

We acknowledge this land out of respect for the Indigenous nations who have cared for Turtle Island, also called North America, from before the arrival of settler peoples until this day. Most importantly, we acknowledge that the history of these lands has been tainted by poor treatment and a lack of friendship with the First Nations who call them home.

This history is something we are all affected by because we are all treaty people in Canada. We all have a shared history to reflect on, and each of us is affected by this history in different ways. Our past defines our present, but if we move forward as friends and allies, then it does not have to define our future.

Learn more about Indigenous Education and Cultural Services

    Sep 27, 2022  
2020-2021 Undergraduate Academic Calendar 
2020-2021 Undergraduate Academic Calendar [ARCHIVED CALENDAR]

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AUTE 4080U – Electric and Hybrid Vehicles

The concepts, principles, analysis and design procedures for electric and hybrid vehicles are covered. Power plant type, electric drive train configurations, power flow, torque and speed coupling options being employed are discussed and analyzed. Energy storage systems are examined for their performance aspects in terms of specific energy and power capability, operating cycles, cost and thermal management requirements. The resulting impact of electrification on vehicle fuel economy, net emissions, life-cycle and infrastructure implication for society are also detailed. Techniques are learned and employed regarding the powertrain sizing problem, including battery pack configuration and its scaling for energy and power needs, selection of driveline components to meet regenerative braking and acceleration performance.
Credit hours: 3
Lecture hours: 3
Laboratory hours: 2 (biweekly)
Tutorial hours: 1
Prerequisite(s): MECE 3390U 

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