1.) A −50 nC charged particle is in a uniform electric field E→=(10 V/m,east). An external...

A -50 nC charged particle is in a uniform electric field E⃗ = (30 V/m ,...

A -50 nC charged particle is in a uniform electric field E⃗ = (30 V/m , east). An external force moves the particle 4.0 m north, then 6.0 m east, then 7.0 m south, and finally 5.0 m west. The particle begins and ends its motion with zero velocity. How much work is done on it by the external force? What is the potential difference between the particle's final and initial positions?

1)A particle moving to the right in a uniform magnetic field directed upwards experiences a magnetic...

1)A particle moving to the right in a uniform magnetic field directed upwards experiences a magnetic force directed inwards. The particle is (A) positively charged. (B) negatively charged. (C) uncharged. (D) Either A or B. (E) Any of the above. 2) A charged particle moves in a uniform magnetic field which is perpendicular to the particle’s velocity. Which of the following statements is/are correct? (A) The particle moves in a circle. (B) The kinetic energy of the particle does not...

A -57.0 nC charged particle is released from rest in a uniform electric field of 0.141...

A -57.0 nC charged particle is released from rest in a uniform electric field of 0.141 N/C. The particle accelerates to a velocity of 0.0002c through a distance of 3.32 m. Determine the potential difference through which the particle accelerated, and determine the mass of the particle. Also, construct a diagram showing all significant aspects of the situation described (you should probably do this first).

A charged particle is moving north when it enters a uniform magnetic field pointing from east...

A charged particle is moving north when it enters a uniform magnetic field pointing from east to west. If the force experienced by the particle is vertically downward, the charge on the particle is a. positive b. negative c. The force is independent of the charge. d. Not enough information given. The magnetic pole in Antarctica is a ______________ magnetic pole a. North b. South c. It changes from year to year. d. It depends on the time of year....

A positively charged particle of mass 5.60 10-8 kg is traveling due east with a speed...

A positively charged particle of mass 5.60 10-8 kg is traveling due east with a speed of 70 m/s and enters a 0.43-T uniform magnetic field. The particle moves through one-quarter of a circle in a time of 3.60 10-3 s, at which time it leaves the field heading due south. All during the motion the particle moves perpendicular to the magnetic field. (a) What is the magnitude of the magnetic force acting on the particle? N (b) Determine the...

1) A charged particle leaves a potential difference with a speed of 1221 m/s headed East....

1) A charged particle leaves a potential difference with a speed of 1221 m/s headed East. The particle then enters a uniform magnetic field directed into the page with magnitude 42.42T. When the particle enters the uniform field, it undergoes a specific type of motion, of which begins turning the particle toward the south. (a) Draw and fully label a diagram of the situation described above, including the motion of the particle inside the B-field. (b) Once the particle enters...

In a certain region of space, there is a uniform electric field E= 4.3 x 104...

In a certain region of space, there is a uniform electric field E= 4.3 x 104 V/m to the east and a uniform magnetic field B = .0073 T to the west. a) What is the electromagnetic force on an electron moving north at 3.7 x 107 m/s? b) With the electric and magnetic fields as specified, is there some velocity such that the net electromagnetic force on the electron would be zero?

A charge of 25.0 nC is placed in a uniform electric field that is directed vertically...

A charge of 25.0 nC is placed in a uniform electric field that is directed vertically upward and that has a magnitude of 4.00×104 N/C . What work is done by the electric force when the charge moves A. 0.550 m to thr right? B. 0.640 m upward? C. 2.80 m at an angle of 45 degrees downward from the horizontal?

A particle (q = -4.0 μC, m = 5.0 mg) moves in a uniform magnetic field....

A particle (q = -4.0 μC, m = 5.0 mg) moves in a uniform magnetic field. If the magnetic field strength is B, the speed of the particle is v, and the angle that the particle’s velocity makes with the magnetic field direction is q, in which of the following cases would the magnitude of the particle’s acceleration be the largest? A. v = 2.0 km/s, B = 9.1 mT, q = 90° B. v = 2.0 km/s, B =...

A uniform electric field of 2.0×105 N/C is oriented in the negative x direction. How much...

A uniform electric field of 2.0×105 N/C is oriented in the negative x direction. How much work must be done to move an electron 3.0 m in the positive x direction, if it begins and ends at rest?