Using the approximation V1 + Av f(v) dv z f(v1) Av for small Av estimate the...
Using the approximation V1 + Av - f(v) dv = f(v1) Av for small Av estimate the fraction of nitrogen molecules at a temperature of 3.45 x 102 K that have speeds between 230 m/s and 231 m/s. 0.003526 x Additional Materials piz yet it right! eBook plz I get it right! try left! Biffent
Using the approximation V1 + Av - f(v) dv = f(v1) Av for small Av estimate the fraction of nitrogen molecules at a temperature of 3.45 x 102 K that have speeds between 230 m/s and 231 m/s. 0.003526 x Additional Materials piz yet it right! eBook plz I get it right! try left! Biffent
11+AV Using the approximation f(v)dv f(v1) Av for small Av, estimate the fraction of nitric oxide (NO) molecules at a temperature of 289 K that have energies between 3.05 x 102 ) and 3.10 x 10-21). - Additional Materials plz help! eBook
f(v) dv f(v,)Av for small Av estimate the fraction of nitrogen molecules at a temperature of Using the approximation 2.75x 102 K that have speeds between 275 m/s and 277 m/s. Additional Materials еВook
1.) In lecture, we developed the Maxwell-Boltzmann distribution given as: P(v)dv = 47 (2,16)"exp(-mv7/2kyn) v?dv Explicitly derive the following: a.) Show that this distribution is normalized. b.) For helium atoms at 500 K, use the error function in order to calculate the fraction of particles traveling in the range of 1500 m/s to 2000 m/s. c.) Produce an expression for <Vavy. (Note: Not the root square average as presented in lecture.) d.) Transform this distribution into a distribution in energy...
02) Consider a hydrostatic system represented by the thermodynamic variables volume V, pressure P and temperature T. a) Consider entropy S = S(T, V) and derive the equation TdS. Tas = Cvat +T (1) dV. V Show that this equation can be written as follows BT TdS = CydT + PDV where Cv is the thermal capacity at constant volume, B is the isobaric expansiveness and K is isothermal compressibility: b) Consider a gas described by the equation of state...
Clock А. S D F G н J K L Z x C V B N М. < V ? control 30 Command option Command Part of the lab exercise Using the given information, complete the following calculations: For all calculations 500ml of 1.0M acetic acid is used. The pressure is 1.0 atm and the temperature is 298K. Use the balanced equation for the reaction of sodium bicarbonate and acetic acid. A. Calculate the limiting reactant 1. For 1.25 g...
please solve on paper and show the equation your gonna
use
2. (30 pts) A small disk of mass m-0.75 kg is moving on a horizontal circle on a frictionless surface. The radius of the circle is 0.45 m. The block has a mass of m2 = 1.7 kg and is stationary A) What is the tension in the string? B) What is the angular speed (in rpm) of mass m? C) How would your answer part B be different...
Question 1 < Find the tangent plane to the equation z = 3.12 2y2 + 3y at the point (-4, -3, - 75) 2 Question 2 Find the tangent plane to the equation z = 5ex°-by at the point (12, 24, 5) Question 3 < > Find the tangent plane to the equation z = 5y cos(3x – 2y) at the point (2,3,15) z = Question 4 at the point (4,2,8), and use it to Find the linear approximation to...
MATLAB, Please answer question 1.
+ ENGR 102 Homework 9 :- 1) An elliptical staircase that decreases in size with height can be modeled by the parametric equations: r cos(t) y-rsint) it m) Where, e-0.04t Ib cos(O)+ [a sin()]- a and b are the semimajor and semiminor axes of the ellipse, h is the staircase height, and n is the number pf revolutions that the staircase makes. Make a 3-D plot of the staircase with a 20 m, b 10...