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
Calculate the wavelengths of the following objects: 1.) an 85.0 kg athlete running a "4-minute mile" (i.e. 4.00 min/mile...
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. 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...
P4.4 Calculate {a} the kinetic energy of an 85.0-kg athlete running at a speed of 10.0 m/s and (b) the kinetic energy of a 60.0-kg cheetah running at 31.0 m/s. (c) Compare the kinetic energy of the cheetah to the kinetic energy of the athlete.
Calculate the wavelength of the following: Earth (mass = 6.10 × 1027 g) moving through space at 3.20 × 104 m/s Answer in nm.
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 >
# 2/4 points Previous Answers SerCP11 6.1.OP.001. Find the magnitude of the linear momentum for the following cases. (Enter your answers in kg. m/s.) (a) a proton with mass 1.67 x 10-27 kg, moving with a speed of 4.00 x 10 m/s 6.68 Remember that momentum is mass times velocity. kgm/s (b) a 14.0-9 bullet moving with a speed of 300 m/s 4.2 kg. m/s (c) a 75.0-kg athlete running with a speed of 10.0 m/s 750 kg. m/s (d)...
Calculate the magnitude of the linear momentum for the following cases. (a) a proton with mass 1.67 10-27 kg, moving with a speed of 5.90 106 m/s kg · m/s (b) a 13.5-g bullet moving with a speed of 310 m/s kg · m/s (c) a 72.0-kg sprinter running with a speed of 11.5 m/s kg · m/s (d) the Earth (mass = 5.98 1024 kg) moving with an orbital speed equal to 2.98 104 m/s.
Calculate the magnitude of the linear momentum for the following cases. (a) a proton with mass 1.67 10-27 kg, moving with a speed of 5.25 106 m/s kg · m/s (b) a 15.0-g bullet moving with a speed of 470 m/s kg · m/s (c) a 70.0-kg sprinter running with a speed of 11.0 m/s kg · m/s (d) the Earth (mass = 5.98 1024 kg) moving with an orbital speed equal to 2.98 104 m/s. kg · m/s
+ -/4 points SerCP11 6.1.P.001. Calculate the magnitude of the linear momentum for the following cases. (a) a proton with mass 1.67 x 10-27 kg, moving with a speed of 6.00 x 10 m/s kg. m/s (b) a 15.0-9 bullet moving with a speed of 330 m/s kg. m/s (c) a 80.0-kg sprinter running with a speed of 10.5 m/s kg. m/s (d) the Earth (mass = 5.98 x 1024 kg) moving with an orbital speed equal to 2.98 x...
please, help me with number 2,3,4,5 and 6. Thank you ARO2041 HW 01 (2) (Protected View) Word (Unlicensed Product) Mailings Review View Help Tell me what you want to do contain viruses. Unless you need to edit, it's safer to stay in Protected View. Enable Editing n disabled because it hasn't been activated. Activate IIJ YoU are running on the treadmill at he 24 Hour Fitness, and the machine says your speed is 6 mi/hr. You need to run a...