In a period of 5.00 s, 5.00 x 1023 nitrogen molecules strike a wall of area...
In a period of 7.00 s, 5.00 x 1023 nitrogen molecules strike a wall of area 5.60 cm2. Assume the molecules move with a speed of 380 m/s and strike the wall head-on in elastic collisions. What is the pressure exerted on the wall? Note: The -26 mass of one Nz molecule is 4.65 x 10 kg. kPa
In a period of 1.5 s, 5.0 1023 nitrogen molecules strike a wall of area 7.2 cm2. If the molecules move at 310 m/s and strike the wall head on in a perfectly elastic collision, find the pressure exerted on the wall. (The mass of one N2 molecule is 4.68 10-26 kg.)
In a period of 0.9 s, 5.0 1023 nitrogen molecules strike a wall of area 9.0 cm2. If the molecules move at 330 m/s and strike the wall head on in a perfectly elastic collision, find the pressure exerted on the wall. (The mass of one N2 molecule is 4.68 10-26 kg.)
In a period of 1.50 s, 5.00 *10^23 nitrogen molecules strike a wall of area 8.20 cm2. If the molecules move at 328 m/s and strike the wall head on in a perfectly elastic collision, find the pressure exerted on the wall. (The mass of one N2 molecule is 4.68 10-26 kg.)
4.00×1023 nitrogen molecules collide with a 17.0 cm2 wall each second. Assume that the molecules all travel with a speed of 380 m/s and strike the wall head on. What is the pressure on the wall?
4.00×1023 nitrogen molecules collide with a 17.0 cm2 wall each second. Assume that the molecules all travel with a speed of 380 m/s and strike the wall head on. What is the pressure on the wall?
please make sure it's the correct answer Problem 20 48 Part A 3.50 1023 nitrogen molecules collide with a 18.0 cm wall each second. Assume that the molecules all travel with a speed of 400 m/s and strike the wall head on. What is the pressure on the wall? Express your answer with the appropriate units. Value Pa Submit My Answers Give Up
A beam of hydrogen molecules (H2) is directed toward a wall at an angle of 58 degrees with the normal to the wall. Each molecule in the beam has a speed of 1.1 km/s and a mass of 3.3 x 10-24 g. The beam strikes the wall over an area of 2.2 cm2, at a rate of 1.1 x 1023 molecules/s. What is the beam's pressure on the wall? Give your answer in Pa, but enter only the numerical part...
P4 Within one second 5.102 nitrogen mo- lecules bounce into a plane wall of area 8 cm. The collision is elastic.The average value of the velocity component of the molecules per- pendicular to the wall is 300 m/s. a)What is the pressure exerted on the wall? b)Estimate the temperature of the gas and the average kinetic energy per molecule.(Use the assumption:<luzl>v>.) c)Estimate the average distance among the molecules.
a. 242 m/s b. 1.21 x 103 m/s c. 822 m/s d. 483 m/s 25. Is this rms speed the same or different from the nitrogen molecules in the sample? Explain. 26. An ideal gas sample of 11 moles initially at STP is isothermally compressed to half its original volume. What must be its final pressure? a. 4.8 atm b. 3 atm c. 2 atm d. 4 atm 27. In the previous question, by what factor does the internal energy...