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To make an electromagnetic motor stronger, there are several approaches you can take. Firstly, you can increase the number of wire turns in the coil to enhance the strength of the magnetic field. Secondly, using a stronger power source to increase the current flowing through the coil will result in a more powerful electromagnet. Additionally, selecting a ferromagnetic core material, such as iron, for the coil can amplify the magnetic field. To apply these principles in everyday life, you could use stronger electromagnets in various applications such as electric vehicles, industrial machinery, or magnetic levitation systems. By optimizing the design and increasing the power input, you can enhance the motor's performance and efficiency.

In real life, electromagnetic motors are widely used in numerous applications. For instance, in electric vehicles, stronger electromagnets can provide greater torque and improve the overall performance of the motor, leading to enhanced acceleration and range. Similarly, in industrial machinery, stronger electromagnetic motors can generate higher forces and operate more efficiently. Hypothetically, to strengthen an electromagnetic motor, you could increase the number of turns in the coil, allowing for a greater magnetic field. Additionally, using a higher voltage power supply would increase the current flowing through the coil, resulting in a stronger electromagnet. Finally, choosing a core material with high magnetic permeability would concentrate and intensify the magnetic field, further enhancing the motor's strength.