Problem 5 Consider a negatively charged particle -q witha speed v enters a magnetic region that...
A negatively charged particle (q = −21.0μC) travels at a constant speed of 3.40 × 10^6 m/s into this page. It then enters a uniform magnetic field of magnitude 3.00 × 10^5 T that points towards the right of this page. a) What is the maximum magnitude of the magnetic force? b) What is the direction of the magnetic force?
A negatively charged particle (q = −16.0μC) travels at a constant speed of 2.55 × 10^6 m/s into this page. It then enters a uniform magnetic field of magnitude 3.05 × 10^5 T that points towards the right of this page. a) What is the maximum magnitude of the magnetic force? b) What is the direction of the magnetic force?
A negatively charged particle (q = −33.0μC) travels at a constant speed of 3.25 × 10 6 m/s into this page. It then enters a uniform magnetic field of magnitude 2.85 × 10 5 T that points towards the left of this page. a) What is the maximum magnitude of the magnetic force? b) What is the direction of the magnetic force? into this page, out of this page, towards the bottom of this page, towards the right of this...
A negatively charged particle (q = −16.0μC) travels at a constant speed of 2.75×10^6 m/s out of this page. It then enters a uniform magnetic field of magnitude 3.65×10^5 T that points towards the left of this page. a) What is the maximum magnitude of the magnetic force? b)what is the direction of the magnetic force? The options are: towards the left of this page, out of this page, towards the bottom of this page, into this page, towards the...
A negatively charged particle is moving the +z direction in a region that contains a uniform magnetic field along the -x direction. In what direction must an electric field point so that there is no net force on the particle? please explain in detail
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...
Please show all steps and projections! Please ignore the previous photo. This is the problem to be solved Apologies for the app malfunctioning Sorry! My phone kept messing up the upload due to Wi-Fi! expression for the net force per unit length due to the currents 1 and 2 on current 3. Use unit vector notation expression for the net force per unit length due to the currents 1 and 2 on current 3. Use unit vector notation We were...
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.
Question 20 A charged particle moving to the right along the x-axis enters a region with a uniform electric field that is directed along the y-axis from the top of the page to the bottom of the page, as shown in the figure below. Which of the following statements is NOT true about the subsequent motion of the charged particle? You may neglect the effects of gravity and air resistance for this question. Select the correct aneu Select the correct...
A charged particle traveling at a given speed enters a uniform magnetic field. The velocity vector of the particle is perpendicular to the magnetic field. Which of the following particle properties will change while in the magnetic field? Its speed. Its velocity Its kinetic energy O All of the above (A, B, and C). None of the above (not A, B, or C). A charged particle traveling at a given speed enters a uniform magnetic field. The velocity vector of...