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- Question 11 A particle (mass -1 mg, charge = 1 mC) moves in the positive direction along the x axis with a velocity of 1 km's. It enters a magnetic field of (1.01-0.0j+0.0k) kT. What is the acceleration of the particle? O Ims²along y O 1ms²along x O-1ms²along x O oms O1ms along zQUESTION 3 W- -E p+ A parallel plate setup is such that the electric field is 1.95x10^5 N/C[S]. A proton travels 9.13x10^4 m/s[E], perpendicular to the electric field. The proton feels an electric force from the electric field. A magnetic field can be added to the system such that the sum of the electric and magnetic forces on the proton is zero, which allows the proton to travel forward at constant velocity. Calculate the strength and direction of such a magnetic field. Proton: mass = 1.67x10^-27kg, charge = +1.60x10^-19C.Problem 23.61 A solenoid is 1.1 m long and has 510 tums per meter. Part A What is the cross-sectional area of this solenoid if it stores 0.27 J of energy when it carries a current of 17 A 7 Express your answer using two significant figures. A- 0.0003 AE6 → Submit Previous Answers Bequest Answer Provide Feedback X Incorrect; Try Again; 2 attempts remaining Tharin 2 m²
- A long horizontal wire carries 23.0 A of current due north. The Earth's field 25.0 cm due west of the wire points north but downward, 42° below the horizontal, and has magnitude of 5.0x10-5T. Part A What is the magnitude of the net magnetic field 25.0 cm due west of the wire? Express your answer using two significant figures. [5] ΑΣΦ B = Submit Part B What is the angle below the horizontal of the net magnetic field 25.0 cm due west of the wire? Express your answer using two significant figures. [5] ΑΣΦ 8= Request Answer Submit Request Answer ? below the horizontalPlease give me the complete concept. Thank you!Question 3 and 4
- How would I solve for total acceleration?018 A wire carrying a current 10 A has a length 0.1 m between the pole faces of a magnet at an angle 60° (see the figure). The magnetic field is approximately uniform at 0.5 T. We ignore the field beyond the pole pieces. What is the force on the wire? Answer in units of N.13. [0/2 Points] DETAILS PREVIOUS ANSWERS OSCOLPHYS2016 22.10.P.055. MY NOTES ASK YOUR TEACHER PRACTICE ANOTHER The figure below shows a long straight wire near a rectangular current loop. (Assume I, = 20.0 A andr = 6.50 cm.) I, 10.0 cm 1 = 30.0 A 30.0 cm What is the magnitude in newtons and direction of the total force on the loop? magnitude N direction Select--- Select- toward the wire Additional M away from the wire to the left O Reading to the right into the page out of the page Viewing Saved Work Revert to Last Response Submit Answer
- Question 2 Time left 1:05:54 Not yet answered Marked out of 2.00 P Flag question A charged particle q -14e enters a magnetic field region B = 18 ( i + j) with kinetic energy 8 Joules. The kinetic energy at time 3wc is a. 54.00 b. 2.67 C. 8.00 d. 1.75 e. 216.00 f. 0.57 g. 112.00 O h. 24.00 Clear my choice Next page01:6: 46 Question 1/10 A conducing wire carries a current of 3.0 A in a region where a uniform magnetic field has a magnitude of 0.6 T in the negative z-direction. If the wire experiences a force of 9.0 N directed in the positive y-axis, what will be the length of the wire (in m) and the direction of the current? 1. O5.0 to the positive z-axis 2. O1.0 to the negative y-axis 3. O2.0 to the positive y-axis 4. O5.0 to the negative x-axis 5. O5.0 to the positive x-axis Next 35°C 10PLz do it in 10 min i need it please