An electron and a proton travel with the same v0 and enter with an angle φ...

An electron and a proton enter a region of uniform magnetic field at the same point...

An electron and a proton enter a region of uniform magnetic field at the same point (not at the same time) with the same velocity, and exit in the direction opposite to which they entered the region. If the distance between the point of entry and exit of the electron is d, what is the distance (in terms of d) between the point of entry and exit for the proton?

Protons and alpha particles are both accelerated by the same potential V and they then enter...

Protons and alpha particles are both accelerated by the same potential V and they then enter the same magnetic field B. the mass of an alpha particle is four times the mass of a proton and the charge of the alpha particle is twice the charge of the proton what is the ratio of the radii (rα/rp) in which the two particles travel inside the magnetic field?

A proton is moving with a velocity of 4.5 x10³ and forms an angle that is...

A proton is moving with a velocity of 4.5 x10³ and forms an angle that is perpendicular to a uniform magnetic field. The charge experiences an acceleration of 4.36 x10^-24 m/s2. A second charge is an electron that is moving at an angle of 40° with respect to the same. It experiences an acceleration of 2.1 x10^-27 m/s. a) What is the magnitude of the magnetic field on the proton? b) What is the speed of the electron as it...

A proton and an electron are released from rest at the same time from the midpoint...

A proton and an electron are released from rest at the same time from the midpoint between two charged parallel plates. The plates are charged with equal surface charge densities of opposite signs. Ignore the interaction between the electron and the proton and consider only the interaction of each charge with the electric field of the plates. After being released, the proton will accelerate toward the negative plate, and the electron will accelerate toward the positive plate. a) Which charge...

A proton and an electron traveling at the same speed enter a uniform magnetic field. The...

A proton and an electron traveling at the same speed enter a uniform magnetic field. The velocity vector of each particle is perpendicular to the magnetic field. Which of the following statements best describes their motions? The paths of both particles will curve in the same direction, but the radius of the electron's trajectory will be much larger than the radius of the proton's trajectory. The paths of both particles will curve in same direction, but the radius of the...

An electron and a positron travel at 2.0 × 104 m/s toward a region of finite...

An electron and a positron travel at 2.0 × 104 m/s toward a region of finite magnetic field (isolated within the lines) directed into the page as shown. A positron is identical to an electron (mass, etc) except that it has a positive charge. Immediately before they enter the field they are 1.0 mm apart. (a) What is the magnitude of the electrostatic force between them right before they enter the magnetic field? (b) The electron and positron enter the...

Two electrons are moving in a uniform magnetic field. The velocity of the first electron is...

Two electrons are moving in a uniform magnetic field. The velocity of the first electron is twice the velocity of the second electron. The electron that has the larger circular radius is: A. the first electron. B. the second electron. C. Both trajectories have the same radius. D. the paths of these electrons are not circular. E. more information is required to answer the question.

An electron is projected into an electric field E=3.2 (N/C) at an angle of 125° with...

An electron is projected into an electric field E=3.2 (N/C) at an angle of 125° with respect to the x-axis with speed 1525 m/s. What is the acceleration of the electron once it is in the electric field (neglect any gravitational effects)? You may consider the electron to enter the field at the origin of coordinates. What is the position of the electron after 15 s, assuming it remains in the same field for the whole time?

A proton traveling at 4.20 km/s suddenly enters a uniform magnetic field of 0.770 T ,...

A proton traveling at 4.20 km/s suddenly enters a uniform magnetic field of 0.770 T , traveling at an angle of 55.0 ∘ with the field lines a) Find the magnitude of the force this magnetic field exerts on the proton. Express your answer in newtons to three significant figures. b) If you can vary the direction of the proton's velocity, find the magnitude of the maximum force you could achieve. Express your answer in newtons to three significant figures....

An electron follows a helical path in a uniform magnetic field given by B→= (19 î...

An electron follows a helical path in a uniform magnetic field given by B→= (19 î - 59ĵ - 27k̂) mT. At time t = 0, the electron's velocity is given by v→ = (22î - 24ĵ + 53k̂) m/s. (a) What is the angle φ between v→ and B→? The electron's velocity changes with time. (b) Do its speed changes with time? (c) Do its angle φ changes with time? (d) What is the radius of the helical path?