which of the following best describes the motion of a negativley charged particle after it has...

Which of the following statements concerning the motion of a charged particle inside a uniform magnetic...

Which of the following statements concerning the motion of a charged particle inside a uniform magnetic field is correct? (Assume the direction of initial velocity is parallel to the B-feild) 1)the charge moves in a circular orbit 2)the magnitude of the velocity does not change with time 3)the larger the initial speed of the particle, the larger the radius of the orbit --2 only --2 & 3 --1 & 2 --1 & 3 -- all are true

a parallel-plate capacitor is used to accelerate a positively charged particle, of mass 1.0x 10-3g and...

a parallel-plate capacitor is used to accelerate a positively charged particle, of mass 1.0x 10-3g and charge 1.0x10-10C, from one plate to another. The charge on each plate has a magnitude 1.0x10-5C, and the separation between the plates is 1.0x10-2m. The capacitor has a capacitance of 1.0x10-9F. what is the acceleration of the particle as it moves from one plate to the other?

9. A 1 nF parallel plate capacitor has plates with a charge of 1μC and -1μC....

9. A 1 nF parallel plate capacitor has plates with a charge of 1μC and -1μC. A particle with a charge of -4μC and a mass of 2x10-16 kg is fired from the positive plate toward the negative plate with an initial speed of 2x106 m/s. Does the particle reach the negative plate? What fraction of the distance does it cover between the plates before it turns around? ans(a=No,b=1/10)

In the figure a charged particle (either an electron or a proton) is moving rightward between...

In the figure a charged particle (either an electron or a proton) is moving rightward between two parallel charged plates separated by distance d = 9.30 mm. The plate potentials are V1 = –63.0 V and V2 = –46.0 V. The particle is slowing from an initial speed of 85.0 km/s at the left plate. (a) Is the particle an electron or a proton? (b) What is its speed just as it reaches plate 2?

_______ 9) A negatively charged particle has a positive position, negative velocity, and           positive acceleration....

_______ 9) A negatively charged particle has a positive position, negative velocity, and           positive acceleration. Which of the following could produce this? (a) The particle is approaching a positive charge that has a negative position. (b) The particle is receding from a positive charge that has a negative position. (c) The particle is approaching a negative charge located at the origin. (d) b and c are both possible. (e) None of these will work. _______ 10) Which of the...

(a) A charged particle decelerates as it moves from location A to location B. If VA...

(a) A charged particle decelerates as it moves from location A to location B. If VA = 260 V and VB = 140 V, what is the sign of the charged particle? positive or negative? Review motion of positively and negatively charged particles as they move from high to low potential or from low to high potential. (b) A proton gains electric potential energy as it moves from point 1 to point 2. Which of the following is true regarding...

Two parallel plates are charged such that there is a 400V potential difference between them. A...

Two parallel plates are charged such that there is a 400V potential difference between them. A proton is fired from a point midway between the plates toward the positive plate. The protons initial speed is 1.5 × 105 m/s. a) Show that this speed is insufficient for the proton to reach the positive plate. b) What is the proton’s speed as it collides with the negative plate? Possibly useful information: mass of a proton = 1.67 × 10−27 kg, charge...

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...

Which of the following statements correctly compare the ideal parallel-plate capacitor to the ideal solenoid? Select...

Which of the following statements correctly compare the ideal parallel-plate capacitor to the ideal solenoid? Select all that apply. A) The direction of the uniform electric field in the capacitor is parallel to the plates making up the capacitor, while the direction of the uniform magnetic field is parallel to the axis of the solenoid. B) In the ideal capacitor changing the distance between the plates does not affect the electric field. In the ideal solenoid changing the radius of...

A particle moving along the x axis in simple harmonic motion starts from its equilibrium position,...

A particle moving along the x axis in simple harmonic motion starts from its equilibrium position, the origin, at t = 0 and moves to the right. The amplitude of its motion is 3.10 cm, and the frequency is 1.60 Hz. (a) Find an expression for the position of the particle as a function of time. (Use the following as necessary: t. Assume that x is in centimeters and t is in seconds. Do not include units in your answer.)...