How rapidly would the following particles be moving if they all had the same wavelength as a photon of red light (λ =750.0 nm)?
1. An electron of mass 9.10939 × 10–28 g
2. A proton of mass 1.67262 × 10–24 g
3. A neutron of mass 1.67493 × 10–24 g
4. An α particle of mass 6.64 × 10–24 g
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How rapidly would the following particles be moving if
they all had the same wavelength as...
What would be the speed of the following particles if they had the same wavelength as...
What would be the speed of the following particles if they had the same wavelength as a photon of red light (A = 750.0 nm)? Proton (mass = 1.673 times 10^-24 g) Neutron (mass = 1.675 times 10^-24 g) Electron (mass = 9.109 times 10^-28 g) Alpha particle (mass = 6 645 times 10^-24 g)
Calculate the wavelengths of the following objects: 1. a muon (a subatomic particle with a mass...
Calculate the wavelengths of the following objects:
1. a muon (a subatomic particle with a mass of 1.884 ×
10–25 g) traveling at 325.0 m/s
2. an electron (me = 9.10939 ×
10–28 g) moving at 3.90 × 106 m/s in an
electron microscope
3. an 75.0 kg athlete running a "4-minute mile" (i.e. 4.00
min/mile)
4. Earth (mass = 5.80 × 1027 g) moving through space
at 3.00 × 104 m/s
09 Question (1 point) Calculate the wavelengths of...
(a) Rank the following particles in order of their de Broglie wavelength, from longest wavelength to...
(a) Rank the following particles in order of their de Broglie wavelength, from longest wavelength to shortest wavelength. If any two particles have the same de Broglie wavelength, state this. Explain how you made your ranking. (i) A proton (mass 1.67 ´ 10–27 kg) moving north at 1.0 ´ 103 m/s (ii) A proton (mass 1.67 ´ 10–27 kg) moving west at 2.0 ´ 103 m/s (iii) An electron (mass 9.11 ´ 10–31 kg) moving south at 1.0 ´ 103...
4. (3 points) A photon has wavelength 450.0 nm. a) What is the momentum of the photon? b) Find the speed of a proto...
4. (3 points) A photon has wavelength 450.0 nm. a) What is the momentum of the photon? b) Find the speed of a proton with the same momentum (from part a) Find the speed of a golf ball with the same momentum (from part a), if the mass of the golf ball is 45.9 g. c) What is the wavelength of a golf ball moving with speed 15 m/s? d)
) moving at 24. Calculate the de Broglie wavelength of a neutron (mass -1.67493 x 10...
) moving at 24. Calculate the de Broglie wavelength of a neutron (mass -1.67493 x 10 6.00 x 10 m/s 25. Write core configuration for the following atoms and ions: a) Br b) Cr" d) Cu: Part() - Show all your work. (8 points each) 21 Draw Lewis Dot Structure for carbonate lon, CO,., and resonances if any. Determine the formal charge of carbon and all oxygens 22. The emission spectrum of gold shows a line of frequency 3.45 x...
Calculate the wavelengths of the following objects: **ANSWER MUST BE IN NM** Part 1: a muon...
Calculate the wavelengths of the following objects: **ANSWER MUST BE IN NM** Part 1: a muon (a subatomic particle with a mass of 1.884 × 10–25 g) traveling at 320.0 m/s Part 2: an electron (me = 9.10939 × 10–28 g) moving at 3.95 × 106 m/s in an electron microscope Part 3: an 79.0 kg athlete running a "4-minute mile" (i.e. 4.00 min/mile) Part 4: Earth (mass = 6.00 × 1027 g) moving through space at 3.10 × 104...
An alpha particle (m = 4.002602 u) is moving at 3.60 times 10^2 m/s. a) Find...
An alpha particle (m = 4.002602 u) is moving at 3.60 times 10^2 m/s. a) Find its mass in kilograms. (6.64 times 10^-27 kg) b) Find its kinetic energy. (4.30 times 10^-22 J) c) Find its kinetic energy in MeV. (2.69 times 10^-9 MeV) d) Find its momentum. (2.39 times 10^-24 kg. m/s) e) Find its deBroglie wavelength (2.77 times 10^-10 m = 0.277 nm) A stationary nucleus of protactinium-231 (m = 231.035879 u) decays by alpha radiation to a...
please showing steps for questions 3,4,5 and 6 please i would appreciate it. kg the gap...
please showing steps for questions 3,4,5 and 6 please i would
appreciate it.
kg the gap of adjacent levels is 4.81 x 10". Problem 3. For a particle of mass m 1.33 x 10 Calculate the force constant. (20.9 kg/s) - Problem 4. Calculate the wavelength of a photon needed to excite a transition between neighboring energy levels of a harmonic oscillator of mass equal to that of a proton and force constant 855 Nm 1 (Newton N; 1 Nxm1])....
Ultraviolet radiation falls in the wavelength region of 1.00x10-8 to 1.00x107 meters. What is the wavelength...
Ultraviolet radiation falls in the wavelength region of 1.00x10-8 to 1.00x107 meters. What is the wavelength of ultraviolet radiation that has an energy of 1.99x10-20 kJ/photon? Wavelength = 9.98x10^-6 m Submit Answer Retry Entire Group 9 more group attempts remaining Compare the de Broglie wavelength of a bullet moving at 700 miles per hour (313 m/s) to that of an alpha particle moving at 3.40x107 miles per hour (1.52x107 m/s) and an electron with a speed of 1.30x107 miles per...
1 1 J (Joule) corresponds to: A: 1.602E-19 eV B: 6.242E18 eV C: 6.242E-20 eV D: 1.602E10 GeV 2 A...
1 1 J (Joule) corresponds to: A: 1.602E-19 eV B: 6.242E18 eV C: 6.242E-20 eV D: 1.602E10 GeV 2 A force acting on an object always changes its: A: Total energy B: Kinetic energy C: Rest energy D: Momentum 3 Momentum is a product of: A: Rest mass and velocity B: Relativistic mass and velocity C: Kinetic energy and velocity D: Relativistic mass and total energy 4 Relativistic mass as a function of velocity is: A: Linearly increasing B: Linearly decreasing C: Non-linearly increasing D: Non-linearly decreasing 5 The Lorentz-factor (g) is a ratio of: A: Total...
What would be the speed of the following particles if they had the same wavelength as a photon of red light (A = 750.0 nm)? Proton (mass = 1.673 times 10^-24 g) Neutron (mass = 1.675 times 10^-24 g) Electron (mass = 9.109 times 10^-28 g) Alpha particle (mass = 6 645 times 10^-24 g)
Calculate the wavelengths of the following objects:
1. a muon (a subatomic particle with a mass of 1.884 ×
10–25 g) traveling at 325.0 m/s
2. an electron (me = 9.10939 ×
10–28 g) moving at 3.90 × 106 m/s in an
electron microscope
3. an 75.0 kg athlete running a "4-minute mile" (i.e. 4.00
min/mile)
4. Earth (mass = 5.80 × 1027 g) moving through space
at 3.00 × 104 m/s
09 Question (1 point) Calculate the wavelengths of...
4. (3 points) A photon has wavelength 450.0 nm. a) What is the momentum of the photon? b) Find the speed of a proton with the same momentum (from part a) Find the speed of a golf ball with the same momentum (from part a), if the mass of the golf ball is 45.9 g. c) What is the wavelength of a golf ball moving with speed 15 m/s? d)
) moving at 24. Calculate the de Broglie wavelength of a neutron (mass -1.67493 x 10 6.00 x 10 m/s 25. Write core configuration for the following atoms and ions: a) Br b) Cr" d) Cu: Part() - Show all your work. (8 points each) 21 Draw Lewis Dot Structure for carbonate lon, CO,., and resonances if any. Determine the formal charge of carbon and all oxygens 22. The emission spectrum of gold shows a line of frequency 3.45 x...
An alpha particle (m = 4.002602 u) is moving at 3.60 times 10^2 m/s. a) Find its mass in kilograms. (6.64 times 10^-27 kg) b) Find its kinetic energy. (4.30 times 10^-22 J) c) Find its kinetic energy in MeV. (2.69 times 10^-9 MeV) d) Find its momentum. (2.39 times 10^-24 kg. m/s) e) Find its deBroglie wavelength (2.77 times 10^-10 m = 0.277 nm) A stationary nucleus of protactinium-231 (m = 231.035879 u) decays by alpha radiation to a...
please showing steps for questions 3,4,5 and 6 please i would
appreciate it.
kg the gap of adjacent levels is 4.81 x 10". Problem 3. For a particle of mass m 1.33 x 10 Calculate the force constant. (20.9 kg/s) - Problem 4. Calculate the wavelength of a photon needed to excite a transition between neighboring energy levels of a harmonic oscillator of mass equal to that of a proton and force constant 855 Nm 1 (Newton N; 1 Nxm1])....
Ultraviolet radiation falls in the wavelength region of 1.00x10-8 to 1.00x107 meters. What is the wavelength of ultraviolet radiation that has an energy of 1.99x10-20 kJ/photon? Wavelength = 9.98x10^-6 m Submit Answer Retry Entire Group 9 more group attempts remaining Compare the de Broglie wavelength of a bullet moving at 700 miles per hour (313 m/s) to that of an alpha particle moving at 3.40x107 miles per hour (1.52x107 m/s) and an electron with a speed of 1.30x107 miles per...
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