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
Calculate the wavelengths of the following objects: 1. a muon (a subatomic particle with a mass...
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...
Calculate the wavelengths of the following objects: 1.) an 85.0 kg athlete running a "4-minute mile" (i.e. 4.00 min/mile) 2.) Earth (mass = 6.00 × 1027 g) moving through space at 2.90 × 104 m/s
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
11 Question (1 point) How rapidly would the following particles be moving if they all had the same wavelength...
Part 4 (1 point) Earth (mass = 6.10 x 1027 g) moving through space at 3.20 x 104 m/s nm 5th attempt 4th attempt 3rd attempt 3 OF 23 QUESTIONS COMPLETED < 04/23 >
Calculate the de Broglie
wavelength of: a) an electron moving through air at the speed of
sound (343 m/s in air). Mass of electron: 9.11x10-31 kg. λ = nm b)
a 145-g baseball pitched at 105.1 miles per hour. (1.000 mile =
1609.34 m) λ = x 10a m a =
Question 1 0/6 pts Calculate the de Broglie wavelength of: a) an electron moving through air at the speed of sound (343 m/s in air). Mass of electron: 9.11x10-31...
Calculate the wavelength of the following: Earth (mass = 6.10 × 1027 g) moving through space at 3.20 × 104 m/s Answer in nm.
7. What would the speed of a proton (mass = 1.67 x 10-30 g) have to be in order to have the same wavelength as an electron (mass = 9.11 x 10-34 g) travelling at a speed of 2.74 x 10 m/s? Ansam m/s 8. What wavelength (nm) would a 75.0 kg person have running at a speed of 1 mile in 6 minutes? Anshasassassow
Circle the final answer (1) Calculate (a) the energy of an electron in the hydrogen atom when n-2. (b) Calculate the frequency. (e) Calculate the wavelength (2) The Lyman series of emission lines of the hydrogen atom are those for which ne=1. (f means final). Calculate the wavelengths (in nm) of the first three lines in the series-those for which n; = 2, 3, and 4. (i means initial) (3) Using Heisenberg 's uncertainty principle, calculate the uncertainty in the...
002 (part 1 of 3) 10.0 points An alpha particle (mass 6.64 x 1027 kg, Z - 2) approaches to within 1.29 x 10-14 m of a carbon nucleus (7-6). Find the maximum Coulomb force on the alpha particle. Answer in units of N 003 (part 2 of 3) 10.0 points Find the acceleration of alpha particle at this point. Answer in units of m/s. 004 (part 3 of 3) 10.0 points Find the potential energy of alpha particle at...
Two point particles are moving in the x,y plane as shown. The mass m1= 3.90 kg is located at ( 2.00m,1.00m) and has the velocity v1= 3.00 m/s in +y direction. The mass m2= 2.40 kg is located at (0,1.00m) and has the velocity v2= 2.00 m/s in +x direction. (Figure 1) Part A Part complete Find the magnitude of their total angular momentum (about the origin O). .......k g ⋅ m 2 / s Part B Part complete What is the direction...