calculate the doppler shift in the frequency of photon traveling along y axis with respect to...

Spaceships X and Y are launched simultaneously with a speed of 0.8c, with X moving along...

Spaceships X and Y are launched simultaneously with a speed of 0.8c, with X moving along the +x axis and Y moving along the +y axis. Consider the motion of Y as seen by someone on X. (a) What is the total velocity of Y measured by the observer on X? (b) What angle (in degrees) does Y’s motion make with respect to the x-axis as measured by the observer on X?

An allied spaceship, moving at 0.5 c with respect to Earth, shoots a photon missile at...

An allied spaceship, moving at 0.5 c with respect to Earth, shoots a photon missile at the speed of light at a revel spaceship, initially at 6000 km away, which is moving away from the allied ship at constant velocity. According to the allied ship the missile hits the revels 0.1 s after firing. How fast were the revels traveling with respect to earth?

An allied spaceship, moving at 0.5 c with respect to Earth, shoots a photon missile at...

An allied spaceship, moving at 0.5 c with respect to Earth, shoots a photon missile at the speed of light at a revel spaceship, initially at 6000 km away, which is moving away from the allied ship at a constant velocity. According to the allied ship, the missile hits the revels 0.1 s after firing. How fast were the revels traveling with respect to earth?

1. In one inertial reference frame, an electron is observed traveling with a velocity of magnitude...

1. In one inertial reference frame, an electron is observed traveling with a velocity of magnitude v in the positive x-direction, where v is 0.6c. What are the momentum and total energy of the electron in that inertial reference frame in terms of v and the rest mass of the electron? What are the speed, momentum and energy of that electron as measured in a reference frame that is traveling at a velocity of magnitude v/2 in the positive x-direction?...

An unpolarized light beam traveling along the x-axis is sent into a system of three polarizers....

An unpolarized light beam traveling along the x-axis is sent into a system of three polarizers. The polarization axis of the first polarizer makes an angle of 15.4 degrees (measured clockwise) with the y axis. The polarization axis of the second polarizer makes a 32.6 degree angle (measured clockwise) with the y axis and the third polarizer's axis makes an angle of theta degrees (measured clockwise) with the polarization axis of the second polarizer.   The light emerging from the third...

One long wire carries current 14.0 A to the left along the x axis. A second...

One long wire carries current 14.0 A to the left along the x axis. A second long wire carries current 70.0 A to the right along the line (y = 0.280 m, z = 0). (a) Where in the plane of the two wires is the total magnetic field equal to zero? (b) A particle with a charge of ?2.00 µC is moving with a velocity of 150î Mm/s along the line (y = 0.100 m, z = 0). Calculate...

Traveling Waves – Doppler Effect A maintenance worker is clearing debris from railroad tracks located 2...

Traveling Waves – Doppler Effect A maintenance worker is clearing debris from railroad tracks located 2 km from the station. The train always sounds the whistle as it passes the station. He hears the locomotive whistle sound and notes that its pitch is 493.9 hz. He also knows that when it sounds as he rides on the locomotive its pitch is 440 hz. He concludes that the locomotive is traveling towards him. How much time does he have to get...

A photon with frequency 9.996x1014 Hz strikes a slab of lead and is absorbed without freeing...

A photon with frequency 9.996x1014 Hz strikes a slab of lead and is absorbed without freeing an electron. a) If the frequency of that photon is the threshold frequency for lead, calculate the work function for lead. Express your answer in eV. b) Assume a photon of wavelength 200 nm strikes the lead, freeing an electron. Calculate the maximum kinetic energy (in Joules) of the liberated electron. c) Calculate the de Broglie wavelength of the emitted electron. You will need...

A sinusoidal electromagnetic plane wave is traveling in the +y direction under water, with an index...

A sinusoidal electromagnetic plane wave is traveling in the +y direction under water, with an index of refraction n = 1.33. The wave is polarized along the z-axis and has a vacuum wavelength of A_0 = 500nm. A. What is the phase velocity of the wavefront in water? B. What is the wavenumber of the electromagnetic wave in water? C. What is the linear frequency of the electromagnetic wave in water? D. If the electric field amplitude is 31.0 V/m,...

Doppler Effect: 1. A stationary police officer using a speed “radar detector” sends a signal with...

Doppler Effect: 1. A stationary police officer using a speed “radar detector” sends a signal with a frequency of 100,000 Hz. The speed of sound is 340 m/s. What is the wavelength of the (ultra) sound wave produced by the detector? The sound wave reflects off a vehicle moving toward the officer. How does the frequency of the reflected sound wave (as recorded by the detector) compare to the original sound wave? 2. The light waves from a distance start...