Concept explainers
It is well known that cold air feels much colder in windy weather than what the thermometer reading indicates because of the “chilling effect” of the wind. This effect is due to the increase in the convection heat transfer coefficient with increasing air velocities. The equivalent wind chill temperature in °F is given by [ASHRAE, Handbook of Fundamentals (Atlanta, GA, 1993), p. 8.15]
where V is the wind velocity in mi/h and Tambient is the ambient air temperature in °F in calm air, which is taken to be air with light winds at speeds up to 4 mi/h. The constant 91.4°F in the given equation is the mean skin temperature of a resting person in a comfortable environment. Windy air at temperature Tambient and velocity V will feel as cold as the calm air at temperature Tequiv. Using proper conversion factors, obtain an equivalent relation in SI units where V is the wind velocity in km/h and Tambient, is the ambient air temperature in °C.
Want to see the full answer?
Check out a sample textbook solutionChapter 1 Solutions
EBK THERMODYNAMICS: AN ENGINEERING APPR
Additional Engineering Textbook Solutions
Fox and McDonald's Introduction to Fluid Mechanics
Mechanics of Materials
Applied Fluid Mechanics (7th Edition)
Statics and Mechanics of Materials
Heat and Mass Transfer: Fundamentals and Applications
HEAT+MASS TRANSFER:FUND.+APPL.
- A new temperature scale called Grande (°Gr) is to be invented where freezing and boiling temperature of water is 34°Gr and 35°Gr respectively. Convert 69°Gr to °Carrow_forwardA certain gasoline gives a hydrometer reading of 66.5 oBaume at 15.6 oC. Using theBureau of Standards Empirical Formula, determine the HHV in kJ/kg.arrow_forwardNeed help with this engineering problem. Which unit could be used in the Ideal Gas law equation to get specific volume in ft3/lbm? absolute pressure in lbf/ft2, Temperature in °R and the gas constant in ft·lbf/lbm·°R absolute pressure in lbf/ft2, Temperature in °F and the gas constant in ft·lbf/lbm·°R absolute pressure in lbf/ft2, Temperature in °R and the gas constant in ft·lbm/lbf·°R barometric pressure in lbf/ft2, Temperature in °R and the gas constant in ft·lbf/lbm·°R gauge pressure in lbf/ft2, Temperature in °F and the gas constant in ft·lbf/lbm·°Rarrow_forward
- T F The specific weight of a fluid is the product of the fluid's density and the acceleration due to gravity. Stronger surface tension leads to higher capillary rise. Absolute pressures are frequently negative. If the pressure of fluid drops below the vapor pressure of that fluid at that temperature, the fluid will cavitate. F F T F F Density can be measured in lb;/ft° in the English system of units. For a hydrostatic incompressible fluid, pressure is independent of depth. A fluid with a high bulk modulus of elasticity is more difficult to compress than one with a low bulk modulus of elasticity. Viscosity is caused, in part, by the surface tension within a fluid. A fluid can resist an applied shear stress by deforming. Pressure increases faster with depth in less dense fluids than in more dense fluids. T F F F F Farrow_forwardThe interior contents and materials of a small building weigh 10 tons, and together they have an average specific heat of 0.25 Btu/ (lbm - °F). Neglecting any inefficiency in the furnace, what amount of natural gas must be burned to raise the building's temperature from freezing to 80° F? (Express your answer using three significant figures.) mgan = Ibmarrow_forwardOn a summer day in Narragansett, Rhode Island, the air temperatureis 74 ° F and the barometric pressure is 14.5 lbf/in 2 .Estimate the air density in kg/m 3 .arrow_forward
- THERMODYNAMICS SUBJECT NEED ASAP Two spherical vessels of different sizes contain the same gas and are connected by means of a pipe with a valve. Sphere A has a diameter of 5 foot at the given pressure gauge of 50 kgf/cm². Sphere B contains the same gas at 20 kgf/cm² gauge. The valve is opened and when the properties have been determined, it is found out that the gauge pressure is 36 kgf/cm². The temperature at the two vessels before and after opening the valve is maintained at 21.1°C. If the barometric pressure is 750 torr and the gas inside the sphere is nitrogen, find the following: The atmospheric pressure in psi The diameter of Sphere B The total mass of the gas after opening the valve I hope you can all answer this question I know tutor can answer until 4 parts. Thank you will give thumbs uparrow_forwardHow does pressure change as a function of altitude?arrow_forwardIn the relation ∆u = mcv ∆T, what is the correct unit of cv — kJ/kg-°C or kJ/kg-K?.arrow_forward
- Refrigeration and Air Conditioning Technology (Mi...Mechanical EngineeringISBN:9781305578296Author:John Tomczyk, Eugene Silberstein, Bill Whitman, Bill JohnsonPublisher:Cengage Learning