Pls answer q3(as I am still not sure whether or not I did q2 correctly) 2. Write an expression for the energy balance of the atmospheric layer in terms of Ts, TA, andthe other given parameters. Keep your expression algebraic.E = oTs* and E = oTA*P=ɛ0A(Ts* – Tso*) and P= ɛ0A(TA* – TAo*)3. Combine your answers from questions 1 and 2 to eliminate TĄ and obtain an expressionthat solves for T3. Keep your expression algebraic, and simplify your expression as muchas possible. where pw is the density of water and L, = 2.5 x 106 J kg-1 is the latent heat of vaporization forwater vapour. Here, E is assumed to be in units ofms-1. The solar constant is S, = 1362 W m-2,the Stefan-Boltzmann constant is o = 5.67 x 10-8 W m-2 K-4, and the planetary albedo is takento be a = 0.29. For all questions below, assume that the Earth system is in a steady-state, whichimplies that the Earth system is in thermal equilibrium.*(1– ap)Atmospheric layerFLHoTEarth's surface1. Write an expression for the energy balance of the surface in terms of Ts, TA and the othergiven parameters. Keep your expression algebraic, using the notation given above.E= (1 – a)+ ɛoTA-FHL-OTs*%3D1362W m-2E =)(1 – 0.29)+ (0.9 )(5.67 × 10-8 W m-² K¯4)T^*- (55 W m-2)(5.67 x 10-8 W m-² K-4)Ts*E = (241.755) W m-2 + (5.1 x 10-8)TA- (3. 118 × 10-6)Tsʻ

Given : Equation 1 Equation 2 To find : Combine equation 1 and 2 to eliminate TA

2. Write an expression for the energy balance of the atmospheric layer in terms ofTs, Ta, and the other given parameters. Keep your expression algebraic. E = oTs* and E = oTA* P= ɛ0A(Ts* – Tso*) and P= ɛ0A(TA* – TA0*) 3. Combine your answers from questions 1 and 2 to eliminate TA and obtain an expression that solves for Ts. Keep your expression algebraic, and simplify your expression as much as possible.

2. Write an expression for the energy balance of the atmospheric layer in terms ofTs, Ta, and the other given parameters. Keep your expression algebraic. E = oTs* and E = oTA* P= ɛ0A(Ts* – Tso) and P= ɛ0A(TA – TA0*) 3. Combine your answers from questions 1 and 2 to eliminate TA and obtain an expression that solves for Ts. Keep your expression algebraic, and simplify your expression as much as possible.

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Theory and Design for Mechanical Measurements

Measurement is a term that refers to analyzing a manufactured component regarding the degree of accuracy for dimensions, tolerances, geometric profile, roundness, flatness, smoothness, etc. Measurement always involves comparing the manufactured component or the prototype with a standard specimen whose dimensions and other parameters are assumed to be perfect and do not undergo changes with respect to time.Precisely in mechanical engineering the branch that deals with the application of scientific principles for measurements is known as metrology. The domain of metrology in general deals with various measurements like mechanical, chemical, thermodynamic, physical, and biological measurements. In mechanical engineering, the measurements are limited to mechanical specific such as length, mass, surface profile, flatness, roundness, viscosity, heat transfer, etc.

Basic principles of engineering metrology

Metrology is described as the science of measurement, precision, and accuracy. In other words, it is a method of measurement based on units and predefined standards.

Question

Pls answer q3(as I am still not sure whether or not I did q2 correctly)

2. Write an expression for the energy balance of the atmospheric layer in terms of Ts, TA, and
the other given parameters. Keep your expression algebraic.
E = oTs* and E = oTA*
P=ɛ0A(Ts* – Tso*) and P= ɛ0A(TA* – TAo*)
3. Combine your answers from questions 1 and 2 to eliminate TĄ and obtain an expression
that solves for T3. Keep your expression algebraic, and simplify your expression as much
as possible.

where pw is the density of water and L, = 2.5 x 106 J kg-1 is the latent heat of vaporization for
water vapour. Here, E is assumed to be in units ofms-1. The solar constant is S, = 1362 W m-2,
the Stefan-Boltzmann constant is o = 5.67 x 10-8 W m-2 K-4, and the planetary albedo is taken
to be a = 0.29. For all questions below, assume that the Earth system is in a steady-state, which
implies that the Earth system is in thermal equilibrium.
*(1– ap)
Atmospheric layer
FLH
oT
Earth's surface
1. Write an expression for the energy balance of the surface in terms of Ts, TA and the other
given parameters. Keep your expression algebraic, using the notation given above.
E= (1 – a)+ ɛoTA-FHL-OTs*
%3D
1362W m-2
E =
)(1 – 0.29)+ (0.9 )(5.67 × 10-8 W m-² K¯4)T^*- (55 W m-2)
(5.67 x 10-8 W m-² K-4)Ts*
E = (241.755) W m-2 + (5.1 x 10-8)TA- (3. 118 × 10-6)Tsʻ

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