4. 

Please refer again to the diagram. This time we have a charge of 9.44 x 10^-6 C moving at velocity 1.47 x 10^5 m/s through a magnetic field of strength 4.30 T and an electric field of strength 1.48 x 10^5 N/C. What is the magnitude of the total force on this charge?

	3.20 N
	6.86 N
	8.68 N
	4.57 N

Transcribed Image Text:

**Figure 1:** The diagram illustrates a charged particle moving in a region where both electric and magnetic fields are present. The setup is commonly used to analyze the forces acting on charged particles in physics. - **Background of the Diagram:** - The background has a grid pattern of "X" marks, signifying that a magnetic field (B) is directed perpendicular to the plane, going into the page or screen. - **Particle Movement:** - A charged particle is shown traveling to the right with a velocity \( v \). - **Electric Field (E):** - An electric field (E) is represented with arrows pointing downward. - **Magnetic Force (\( F_m \)):** - The force due to the magnetic field on the moving charged particle is shown as \( F_m \), acting upwards. This force is perpendicular to both the velocity of the particle and the magnetic field. - **Electric Force (\( F_e \)):** - The force due to the electric field is depicted as \( F_e \), acting downward parallel to the electric field lines. This diagram is used to study the interaction between electric and magnetic fields and the resultant forces on a charged particle.