Final answer:
Smart locks are created through the integration of science, technology, math, and engineering. Mechanical engineers use math and science to design the mechanical components of the lock, while software engineers develop the algorithms and programming necessary for its operation.
Step-by-step explanation:
In the development of a smart lock, various engineering disciplines were utilized, where each engineer likely employed both mathematics and science to innovate and refine the device.
For instance, an electrical engineer would have applied knowledge of circuitry and programming to design the lock's electronic components. This process involved using mathematical models to predict electrical behaviors and employing scientific principles to ensure the hardware's reliability under different conditions.
The connection of math and science to engineering is essential in creating a sophisticated design, as it allows for the practical application of theoretical knowledge to solve real-world problems.
Engineers rely on mathematical calculations and scientific testing to iterate their designs, ensuring they meet the required specifications. Although the steps of the engineering design process are systematic, they do not always proceed in a linear fashion because real-world challenges often require revisiting and modifying earlier stages based on new insights or constraints discovered.
Lastly, team decision-making in the engineering design process is deeply influenced by the integration of math and science, as these form the basis for rigorous analysis and evidence-based selection among available options. This collaborative process leverages the strengths of various disciplines to develop and enhance technologies like smart locks, which are part of our daily digitalized world.