On a particular day imagine you are standing on the surface where the local temperature is...
On a particular day imagine you are standing on the surface where the local temperature is 20 °C. Suppose the lapse rate as one ascends into the Troposphere from where you stand is a constant of 6 °C per kilometer. Using this fact, use lapse rate to compute the altitude of the lower edge of the Tropopause (where it is – 60 °C) above the place where you are standing where it is 20 °C.
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On a particular day imagine you are standing on the surface
where the local temperature is...
Question 2 (20 points) Venus has mass my = 4.87 x 1024 kg and radius Ry...
Question 2 (20 points) Venus has mass my = 4.87 x 1024 kg and radius Ry = 6.05 x 103 km. Surface conditions are temperature To = 740 K, and pressure Po = 9.3 MPa. The lapse rate is approximately constant for most of the troposphere, up to 2 60 km where T1 263 K. Its atmosphere can be approximated as 100% carbon dioxide, CO2. You can assume that gravity is constant at its sea-level value. Using your result from...
Below you are given temperature data at several heights above the ground on a sunny day,...
Below you are given temperature data at several heights above the ground on a sunny day, acquired from a radiosonde launch. Height Above Ground (m) Temperature (°C) 0 28 500 22 1000 18 1500 14.5 2000 15.5 2500 13 3000 9 Calculate the environmental lapse rate for each of the five lowest layers, expressing your answer in °C/km. Remember that the lapse rate is defined as the rate of decrease of temperature with altitude. Thus, if temperature decreases with altitude,...
pe the earth at a rate of around 30 watts per cubic kilometer. (A watt is a rate of heat production.) The heat then flows to the earth's surface where it is lost to space. Let F(x,y, z) denote th...
pe the earth at a rate of around 30 watts per cubic kilometer. (A watt is a rate of heat production.) The heat then flows to the earth's surface where it is lost to space. Let F(x,y, z) denote the rate of flow of heat measured in watts per square kilometer. By definition, the flux of F across a surface is the quantity of heat flowing through the surface per unit of time. (a) Suppose that the actual heat generation...
Suppose you start your day in Denver, on a cool 10∘C spring day. The local atmospheric...
Suppose you start your day in Denver, on a cool 10∘C spring day. The local atmospheric pressure is 85 kPa. You fill your car's tires until the gauge shows 210 kPa (about 30 psi). You then drive up to Fairplay, Colorado, where the atmospheric pressure is lower-- 70 kPa --and the temperature drops to 0∘C. When you finish lunch, you check your tire pressure. A. What does the gauge read? and Units. Please show the math on how to solve...
Wind speed 10 m Air Temperature Surface Temperature 10 m Specific Humidity 9a Surface Spec Humidi...
Wind speed 10 m Air Temperature Surface Temperature 10 m Specific Humidity 9a Surface Spec Humidity9 . Calculate the solar insolation at 12h00 noon assuming the season is winter eg. 21 December and the latitude is 18°N (at Puerto Rico), with the equation: 5 m/s 22 С 26 C 15 g/kg 20 g/kg Ta Ts Qs-(sin(d)(S) (insolation fraction) where S is the solar constant 1370 W m-2 d is the sun angle (90 deg latitude -season), and dividing for time...
Problem 1. (25%) The temperature on the inside surface of a CYLINDRICAL tank is T.(11) =...
Problem 1. (25%) The temperature on the inside surface of a CYLINDRICAL tank is T.(11) = 100°C under steady state conditions. The temperature outside the tank, T2(2), needs to be determined. The inner radius is 1 m and the outer radius is 1.3 m, and the tank material has a conductivity of k = 15 W/m. K. ONLY CONVECTION on the outer surface has to be considered. The ambient temperature is To = 25°C and the convection heat transfer coefficient...
Imagine that you are part of the first human colony on Mars, where the acceleration rate...
Imagine that you are part of the first human colony on Mars, where the acceleration rate of gravity is 3.8m/s2, and your team is equipped with mountain bikes. Unfortunately, to ride your bike, you must donn your 130 kg space suit and life support system. Assuming your mass to be 60 kg, the bike’s mass to be 15 kg, and the frictional coefficient of the tires against the Martian soil is 0.4 (approximately the same as on Earth), (a). How...
3) A home requires 62 kWh of energy (heat) on a winter day to maintain a constant indoor temperat...
3) A home requires 62 kWh of energy (heat) on a winter day to maintain a constant indoor temperature of 20 °C. (a) How much collector surface area does it need for an all-solar thermal heating system that has an absorptivity of 0.2? The average solar radiation in winter is about 6.5 kWh/m2/day. [35 points] a) What is the mass of water required if this energy is stored as sensible heat energy storage system? Where the water operates between 20...
Start by checking your Reynolds number (Re) at the end of the plate, where it will...
Start by checking your Reynolds number (Re) at the end of the
plate, where it will be at a maximum. This will determine if your
boundary layer is simply laminar along the length of the plate or
if it becomes turbulent (the "mixed BL" condition). Once you know
the conditions of the flow, you can solve for the velocity BL
thickness directly with an equation from the list of external flow
correlations (posted). Your properties should be looked up at...
HoMEWORK FOR INTRODUCTION TO HEAT AND TEMPERATURE 1. Approximately what is human body temperature on the...
HoMEWORK FOR INTRODUCTION TO HEAT AND TEMPERATURE 1. Approximately what is human body temperature on the Celsius temperature scale? Which is better at transferring heat, water or air? How does this fact explain the length of time it takes the temperature probe to reach thermal equilibrium with the air or water it is in? 2. 3. What effect does the evaporation of water have on the object from which it is evaporating? When has your body experienced this effect? 4....
Question 2 (20 points) Venus has mass my = 4.87 x 1024 kg and radius Ry = 6.05 x 103 km. Surface conditions are temperature To = 740 K, and pressure Po = 9.3 MPa. The lapse rate is approximately constant for most of the troposphere, up to 2 60 km where T1 263 K. Its atmosphere can be approximated as 100% carbon dioxide, CO2. You can assume that gravity is constant at its sea-level value. Using your result from...
pe the earth at a rate of around 30 watts per cubic kilometer. (A watt is a rate of heat production.) The heat then flows to the earth's surface where it is lost to space. Let F(x,y, z) denote the rate of flow of heat measured in watts per square kilometer. By definition, the flux of F across a surface is the quantity of heat flowing through the surface per unit of time. (a) Suppose that the actual heat generation...
Wind speed 10 m Air Temperature Surface Temperature 10 m Specific Humidity 9a Surface Spec Humidity9 . Calculate the solar insolation at 12h00 noon assuming the season is winter eg. 21 December and the latitude is 18°N (at Puerto Rico), with the equation: 5 m/s 22 С 26 C 15 g/kg 20 g/kg Ta Ts Qs-(sin(d)(S) (insolation fraction) where S is the solar constant 1370 W m-2 d is the sun angle (90 deg latitude -season), and dividing for time...
Problem 1. (25%) The temperature on the inside surface of a CYLINDRICAL tank is T.(11) = 100°C under steady state conditions. The temperature outside the tank, T2(2), needs to be determined. The inner radius is 1 m and the outer radius is 1.3 m, and the tank material has a conductivity of k = 15 W/m. K. ONLY CONVECTION on the outer surface has to be considered. The ambient temperature is To = 25°C and the convection heat transfer coefficient...
3) A home requires 62 kWh of energy (heat) on a winter day to maintain a constant indoor temperature of 20 °C. (a) How much collector surface area does it need for an all-solar thermal heating system that has an absorptivity of 0.2? The average solar radiation in winter is about 6.5 kWh/m2/day. [35 points] a) What is the mass of water required if this energy is stored as sensible heat energy storage system? Where the water operates between 20...
Start by checking your Reynolds number (Re) at the end of the
plate, where it will be at a maximum. This will determine if your
boundary layer is simply laminar along the length of the plate or
if it becomes turbulent (the "mixed BL" condition). Once you know
the conditions of the flow, you can solve for the velocity BL
thickness directly with an equation from the list of external flow
correlations (posted). Your properties should be looked up at...
HoMEWORK FOR INTRODUCTION TO HEAT AND TEMPERATURE 1. Approximately what is human body temperature on the Celsius temperature scale? Which is better at transferring heat, water or air? How does this fact explain the length of time it takes the temperature probe to reach thermal equilibrium with the air or water it is in? 2. 3. What effect does the evaporation of water have on the object from which it is evaporating? When has your body experienced this effect? 4....
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