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QUESTION 1 A quadrupole is a specific kind of charge setup used in some experiments. This setup involves four charges of equal magnitude - two

QUESTION 1 A quadrupole is a specific kind of charge setup used in some experiments. This setup involves four charges of equal magnitude - two positive, two negative.

An electron is in a quadrupole charge setup. The electron feels four forces:

The electron is 20.6mm[N] from a charge of positive 9.61x10^-14 C The electron is 34.3mm[E] from a charge of negative 9.61x10^-14 C

The electron is 34.3mm[S] from a charge of positive 9.61x10^-14 C

The electron is 20.6mm[W] from a charge of negative 9.61x10^-14 C

Calculate the acceleration of the electron. Remember to include direction.

QUESTION 2 A 350V battery is setup to a pair of parallel plates. The electric field between the plates is 1.1x10^6 N/C[E].

a) Calculate the distance between the two plates.

b) Calculate the acceleration, including direction, that an electron would experience between the plates.

QUESTION 3 A molecule of unknown mass is given a charge of negative 1.60x10^-19 C. The molecule is then accelerated from rest through 1450 V, attaining some final speed. It then takes 6.690x10^-5 seconds to travel 5.00 m at speed without further acceleration. Calculate the mass of the molecule.

QUESTION 4 A proton is travelling at a velocity of 5980 m/s [23.1 degrees S of W]. It enters a magnetic field of 2.14 T [37.2 degrees W of N]. Calculate the magnitude of the magnetic force on the proton.

QUESTION 5 A molecule of charge negative 1.60x10^-19 C enters a magnetic field of 1.98 T[Up]. The molecule enters the magnetic field at a velocity of 5.79x10^4 m/s[E]. In the magnetic field, the molecule has a turning radius of 9.04 cm. The angle between the molecule's velocity and the magnetic field is exactly 90 degrees. Calculate the mass of the molecule.

QUESTION 6 A photon has a wavelength of 423nm.

a) Calculate the frequency of the photon. b) Calculate the energy of the photon.

c) Calculate the magnitude of the photon's momentum.

QUESTION 7 An electron is accelerated from rest through 2860V, attaining some final speed. Calculate the De Broglie wavelength of the electron at that speed.

Please solve that in a rough paper with a full explanation

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