For air with temperature and dew-point values given below in °C, find the LCL value (km)....

Use 70°F air and RH 50% to answer questions 17-20. 18. The dew point would be...

Use 70°F air and RH 50% to answer questions 17-20. 18. The dew point would be ____________ . A. Above 70°F B. At 70°F C. Below 70°F D. Can't tell from the information given

The temperature of the air in thermals decreases about 10°C for each 1,000 m they rise....

The temperature of the air in thermals decreases about 10°C for each 1,000 m they rise. If a thermal leaves the ground with a temperature of 35°C and a relative humidity of 32 percent, at what altitude will the air become saturated and the water vapor begin to condense to form a cloud? (In other words, at what altitude does the temperature equal the dew point?) _____m

At 270 C temperature and 760 mmHG Pressure density of dry air is 1.184 kgm-3. At...

At 270 C temperature and 760 mmHG Pressure density of dry air is 1.184 kgm-3. At the same temperature and pressure the density of moist air is 0.624 kgm-3. When pressure is at 760 mmHG and at dew point 11.250 C calculate the mass of 1 L of moist air. (at 11.250C the saturated vapour pressure of water is 10 mmHG)

A. Given the values below, is the value of the spending (Keynesian) multiplier? What is the...

A. Given the values below, is the value of the spending (Keynesian) multiplier? What is the value of the tax multiplier? What is the value of the 'balanced budget multiplier'? Solve for Y*. a = 300 MPC = .6 I = 350 G = 400 T = 0 B. Given the values below, solve for Y* (equilibrium output). a = 300 MPC = .6 I = 350 G = 400 T = 250 C. Given the values below, solve for...

1. Given the values of ΔGfo given below in kJ/mol, calculate the value of ΔGo in...

1. Given the values of ΔGfo given below in kJ/mol, calculate the value of ΔGo in kJ for the combustion of 1 mole of methane to form carbon dioxide and gaseous water. ΔGfo (CH4(g)) = -48 ΔGfo (CO2(g)) = -395 ΔGfo (H2O(g)) = -236 2. Given the values of So given below in J/mol K and of ΔHfo given in kJ/mol, calculate the value of ΔGo in kJ for the combustion of 1 mole of ethane to form carbon dioxide...

#6 a). Suppose the temperature of the atmosphere has the dependence T=T(0)e^(−z/z(0)). Find an expression for...

#6 a). Suppose the temperature of the atmosphere has the dependence T=T(0)e^(−z/z(0)). Find an expression for the pressure p(z). b). Suppose the atmosphere has its temperature equal to 300 K and pressure 1000 hPa at z = 0. The temperature profile falls linearly with a lapse rate of 6 K km−1 up to 10 km. Above 10 km the temperature is constant. What is the pressure as a function of z? c). Use the results of a) to compute the...

c. Fill in the table below by calculating the corresponding value of 1/T for each temperature...

c. Fill in the table below by calculating the corresponding value of 1/T for each temperature and the log(P) for each vapor pressure Temperature (K) 1/T 263 ______________ 273 ______________ 283 ______________ 293 ______________ 303 ______________ 313 ______________ Vapor pressure (P, in torr) 80.1 133.6 213.3 329.3 495.4 724.4 log (P) _____________ _____________ _____________ _____________ _____________ _____________ d. Using the calculated data from the table, graph log(P) vs 1/T. e. What is the difference between the two graphs? f. If...

1) Find the values of the trigonometric functions of θ from the information given. cot(θ) =...

1) Find the values of the trigonometric functions of θ from the information given. cot(θ) = − 3/5, cos(θ) > 0 sin(θ) = cos(θ) = tan(θ) = csc(θ) = sec(θ) = 2) The point P is on the unit circle. Find P(x, y) from the given information. The x-coordinate of P is −√5/4, and P lies below the x-axis. P(x, y) = ( ) 3) Find the terminal point P(x, y)  on the unit circle determined by the given value of...

Calculate the Y values corresponding to the X values given below. Find the critical values for...

Calculate the Y values corresponding to the X values given below. Find the critical values for X for the given polynomial by finding the X values among those given where the first derivative, dy/dx = 0 and/or X values where the second derivative, d­2y/dx2 = 0.    Be sure to find the sign (+ or -) of dy/dx and of d2y/dx2 at all X values. Reference Lesson 13 and the text Appendix A (pp 694 – 698), as needed. Using the...

The temperature at a point (x, y, z) is given by T(x, y, z) = 400e−x2...

The temperature at a point (x, y, z) is given by T(x, y, z) = 400e−x2 − 5y2 − 9z2 where T is measured in °C and x, y, z in meters. (a) Find the rate of change of temperature at the point P(2, −1, 2) in the direction towards the point (3, −5, 6). °C/m (b) In which direction does the temperature increase fastest at P? (c) Find the maximum rate of increase at P.