An electron has velocity V= (35i + 39j) km/s as it enters a uniform magnetic field B= 70i µT. What are (a) the radius of the helical path taken by the electron and (b) the pitch of that path? (c) To an observer looking into the magnetic field region from the entrance point of the electron, does the electron spiral clockwise or counterclockwise as it moves? The charge of an electron is -1.602 × 10^-19 C and its mass is 9.109 × 10^-31 kg.
An electron has velocity V= (35i + 39j) km/s as it enters a uniform magnetic field...
An electron with a speed of 4.0x105 m/s enters a uniform magnetic field of magnitude 0.40 T at an angle of 35° with respect to magnetic field lines. The electron follows a helical path. Determine: (a) the radius of the helical pitch. (b) The distance you travel after completing a circle.
An electron enters into a uniform magnetic field directed into of the page. The magnetic field has a magnitude of B = 1.57. The electron will travel a semi-circle path with a radius of R=42 x 10-6 m and hits a detector. What speed did the electron have when it entered the uniform magnetic field? Electron Charge:q=1.602 x 10-19 C Electron Mass: m = 9.109 x 10-31 kg ( XB R V Detector 1.11 x 107 m/s Any electrons will...
1. An electron enters a uniform magnetic field of 2.5 mT with a velocity perpendicular to the direction of the field. At what speed must the electron enter the region in order to traverse a circular path with a radius of 2.5 cm?
A proton of speed v = 6 x 105 m/s enters a region of uniform magnetic field of B = 0.5 T at an angle of $ = 60° to the magnetic field. In the region of the magnetic field the proton describes a helical path with radius R and pitch p (distance between loops). Find R and p.
An electron enters a uniform magnetic field B = 0.24 T at a 48 degree angle to B. Determine the radius r and pitch p (distance between loops) of the electron's helical path assuming its speed is 3.5 times 10^6 m/s. See the figure Express your answer using two significant figures. Express your answer using two significant figures
An electron enters a region of uniform electric field with an initial velocity of 55 km/s in the same direction as the electric field, which has magnitude E = 61 N/C. (a) What is the speed (in km/s) of the electron 4.6 ns after entering this region? (b) How far (in microns) does the electron travel during the 4.6 ns interval?
points An electron enters a region of a uniform magnetic field with velocity V- 5.0 10 m/s in sy direction. The magnitude of the field is 10 T and is in ydirection What is the magnetic force matitude and direction) exerted on the electron from the field? 2.4-12 N in the direction 2.4e-12 N in the ty direction 2.de-12 N in the y direction The force is zero 2.4-12 N in the direction
#12: An electron with v = (3.52x106 î - 8.99x106 k) m/s enters a magnetic field of B =5.41 k T. It moves in a helical path as shown. What is the radius of the cylinder around which the helix winds and what is the speed of the particle after 0.50s? *hint: you can ignore one of the components of velocity when finding the radius: which one and why? [R = 3.70x10-6 m, v = 9.65x106 m/s] +y po +z...
An electron enters a region of uniform electric field with an initial velocity of 70 km/s in the same direction as the electric field, which has magnitude E = 52 N/C. (a) What is the speed of the electron 1.5 ns after entering this region? (b) How far does the electron travel during the 1.5 ns interval?
An electron enters a region of uniform electric field with an initial velocity of 53 km/s in the same direction as the electric field, which has magnitude E = 54 N/C. (a)What is the speed of the electron 1.4 ns after entering this region? (b) How far does the electron travel during the 1.4 ns interval?