An electron that has velocity (3.4 x 10 m/s)i+ (2.5 x 106 m/s)j moves through a...
An electron that has a velocity with x component 2.7 × 106 m/s and y component 2.3 × 106 m/s moves through a uniform magnetic field with x component 0.033 T and y component -0.21 T. (a) Find the magnitude of the magnetic force on the electron. (b) Repeat your calculation for a proton having the same velocity.
An electron that has a velocity with x component 2.0 x 106 m/s and y component 2.9 x 106 m/s moves through a uniform magnetic field with x component 0.032 T and y component -0.19 T. (a) Find the magnitude of the magnetic force on the electron. (b) Repeat your calculation for a proton having the same velocity. answer must be in N units!!!!!!
Chapter 28, Problem 003 An electron that has a velocity with component 2.5 × 106 m s and y component 3 3 x 106 m s moves through a uniform magnetic e d it x component 123 and y component a 9 T. (a) Find the magnitude of the magnetic force on the electron. (b) Repeat your calculation for a proton having the same velocity. (a) Number (b) Number Units Units
Chapter 28, Problem 003 An electron that has a velocity with x component 2.6 × 106 m/s and y component 3.3 × 106 m/s moves through a uniform magnetic field with x component 0.033 T and y component -0.17 T. (a) Find the magnitude of the magnetic force on the electron. (b) Repeat your calculation for a proton having the same velocity (a) Number (b) Number Click if you would like to Show Work for this question: Open Show Work...
An electron moves at speed 5.6 x 106 m/s toward the velocity selector shown in (Figure 1). A 0.12-T magnetic field points into the paper. Part A Determine the magnitude of the magnetic force that the magnetic field exerts on the electron. Part B Determine the direction of the magnetic force that the magnetic field exerts on the electron. upward downward Part C What E field magnitude is required so that the electric force exerted on the electron is equal in magnitude and opposite in direction to the...
An electron that has velocity = (7.10×106m/s) for the x component and + (1.83×106m/s) for the y component moves through the uniform magnetic field = (1.950 T) x component and - (1.930 T) y component. Find the magnitude of the force on the electron due to the magnetic field. Repeat your calculation for a proton with the same velocity and magnetic field.
An electron moves at 3.00×106 m/s through a region in which there is a magnetic field of unspecified direction and magnitude 7.90×10−2 T . a- What is the largest possible magnitude of the acceleration of the electron due to the magnetic field? b- What is the smallest possible magnitude of the acceleration of the electron due to the magnetic field? c- If the actual acceleration of the electron is 14 of the largest magnitude in part (a), what is the...
An electron with velocity (12 m/s) i moves through a magnetic field B - (4.0). J. and k denote unit vectors pointing along the x, y, and axes, respectively. Find the magnitude of the force on the electron 4.7.7 * 10-18 6.3.3 * 10-19 C. 48 N d. 6.0 N
An electron that has velocity v=(3x10^5 m/s) and moves along positive x direction through the uniform magnetic field B=(0.8T) which is along the positive z direction. (a) Find the force on the electron (magnitude and direction). (e=1.6x10^-31 kg) (b) Calculate the radius of the electron's path in the magnetic field.
(a) A proton, traveling with a velocity of 3.5 106 m/s due east, experiences a magnetic force that has a maximum magnitude of 7.1 10-14 N and a direction of due south. What are the magnitude and direction of the magnetic field causing the force? magnitude T (b) Repeat part (a) assuming the proton is replaced by an electron. magnitude T