A positively charge particle Q=0.1 PC moves with a velocity of v= 26 i - 521...
A particle with positive charge q = 4.01 10-18 C moves with a velocity v = (5î + 5ĵ − ) m/s through a region where both a uniform magnetic field and a uniform electric field exist. (a) Calculate the total force on the moving particle, taking B = (5î + 2ĵ + ) T and E = (3î − ĵ − 2) V/m. (Give your answers in N for each component.) Fx= NFy= NFz= N (b) What angle does...
A particle with positive charge q = 1.12 10-18 C moves with a velocity v with arrow = (5î + 2ĵ − k) m/s through a region where both a uniform magnetic field and a uniform electric field exist. (a) Calculate the total force on the moving particle, taking B with arrow = (5î + 2ĵ + k) T and E with arrow = (2î − ĵ − 4k) V/m. (b) What angle does the force vector make with the...
Each of the figures below depicts the velocity v of a positively charged particle. The particle moves in the presence of a magnetic field, and a magnetic force Facts on the particle as shown. In each case, which of the choices gives the direction of the magnetic field that is consistent with the given velocity and magnetic force direction?
please show work Q.6 A particle with positive charge q = +3 x 10-C has a velocity i = 2001 + 300 (the components are in ms) and moves through a uniform magnetic field B=0.3j (the component is in tesla T). Calculate the magnitude and direction of the magnetic force F on the charge. (Drawing a picture of the vectors is helpful.)
A charged particle (Q = 4 C, m = 0.04 kg) moves at a speed of 100 m/s perpendicular to the direction of a uniform magnetic field of 0.1 T. What is the magnitude of the force exerted by the magnetic field on the charge?
1)A particle of charge = +9 nC and mass = 5 micro-gram) moves with a velocity V = 3.1 i km/s in a region where the magnetic field is B = 8.9 i + 7.1 j mT. What is the magnitude of the force on the particle due to the magnetic field? Write your answer in nano-newtons. 2)A particle of charge = +1.1 nC and mass = 9 micro-gram) moves with a velocity V = 2.4 i km/s in a...
A positively charged particle moves in the +x direction in a region of uniform magnetic field B directed into the page as shown. The resultant force on the particle can be made qual to zero by the application of a uniform electric field in the what direction? Please show all work and provide an explanation!! a. +y direction b. -y direction c. +x direction d. -x direction e. direction perpendicular to and out of the page.
3. (a) Show that when a particle with mass m and charge q enters a magnetic field having its velocity v perpendicular to the direction of the magnetic field B, it will perform a mv circular path of radius R- qB (b) Using the previous result find an expression for the period T of the circular motion. (c) A charged particle moves into a region of uniform magnetic field, goes through half a circle and then exits that region, as...
A charged particle moves through a region of space that has both a uniform electric field and a uniform magnetic field. What is the condition for these fields in order for the particle to move through this region at a constant velocity? Does the answer depend on the sign of the particle’s electric charge?
A point charge Q=3.79 micro C moving with velocity (boldface denotes vectors): v= (19.0 i +11.7 j +15.2 k) m/s,enters a region of uniform magnetic field: B= (1663 i +1406 j +1108 k) T. Right after entering the field region: What is the x-component of the magnetic force exerted on Q?