In the magnetic field, the ions travel in a quarter- circle path of radius R = 8.00 cm, with a potential difference of 4800 V. A detector is then placed at the point where the ions are leaving the field, so we can count the ions. What magnetic field strength B is required to produce a path of this radius? T (D Numeric answer Answered - Incorrect \fIn the simulation, the circular part of the path is projected onto the x-y plane. Let's say that this circle has a radius of 25.0 cm, and the particle takes a time of 2.20 s to go once around the circle. In that same time it travels 30.0 cm in the +2 direction. The particle has a charge of +e, and a mass of 1.00 x 1024 kg. Determine the magnitude of the particle's velocity. m/s 6) Numeric answer 0.760 X In the simulation, the circular part of the path is projected onto the x-y plane. Let's say that this circle has a radius of 25.0 cm, and the particle takes a time of 2.20 s to go once around the circle. In that same time it travels 30.0 cm in the +2 direction. The particle has a charge of +e, and a mass of 1.00 x 1024 kg. Determine the magnitude of the uniform magnetic field the particle is in. T (D Numeric answer | Type your response | In the simulation, the circular part of the path is projected onto the X-y plane. Let's say that this circle has a radius of 25.0 cm, and the particle takes a time of 2.20 s to go once around the circle. In that same time it travels 30.0 cm in the +2 direction. The particle has a charge of +e, and a mass of 1.00 x 1024 kg. Determine the magnitude of the force exerted on the particle by the magnetic field. N (D Numeric answer Type your response