A powerful contribution of the 1st and 2nd laws is to determine the design feasibility of...

A powerful contribution of the 1^st and 2^nd laws is to determine the design feasibility of a process/device/system. Please determine the feasibility of the following flow device: a steady-state flow device in which the inlet is steam at 300and 5 bar, the outlet is saturated steam at 100 and 1 bar, the device is adiabatic and produces approximately 500 kJ per kilogram of steam passed through the device.

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Amanda K answered 2 years ago

Lever class Example Force Axis Resistance Advantage provided 1st 1st 2nd 2nd 3rd 3rd Determine and...

Lever class Example Force Axis Resistance Advantage provided 1st 1st 2nd 2nd 3rd 3rd Determine and list two practical examples of levers (in the body or daily living) for each lever class. Do not use examples already discussed in this chapter. For each example identify the force, axis, and resistance. Also explain the advantage of using each lever- that is, whether it is to achieve balance, force, motion, speed, or range of motion.

difference between 1st and 2nd derivatives of deterministic Newtonian equation?

define derivative (1st and 2nd) both in words and in mathematical symbols

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1)The fate of the 1st opening in the protostomes and the 2nd opening in the Deuterostomes is determined by: a) chondrocytes, b) osteocytes, c) neurocytes, d) myocytes, e) mesoderm. 2). In the circulatory system, what do the Aorta and the Pulmonary artery have in common? They both: a) carry blood with high O2. b) carry blood with low O2, c) carry blood toward the heart, d) carry blood away from the heart, e) connect directly to veins. 3)The mitochondrion is...

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Derive the 2nd order accurate finite difference approximation for the 1st derivative of a function at...

Derive the 2nd order accurate finite difference approximation for the 1st derivative of a function at the data point Xo. That is, find the coefficients a, b, c such that: af(Xo) + bf(X1) + cf(X2) = f'(Xo) + O(h^2). (Note: there is a prime sign on the f'(Xo) at the right side)

An absorption column (1st unit) and a stripping tower (2nd unit) are used in a separation...

An absorption column (1st unit) and a stripping tower (2nd unit) are used in a separation process to separate gas mixtures that contains 35 mol% CO2 and the balance methane (CH4). The gas mixture is fed to the bottom of absorption column where in the column, the gas mixture is contacted with a recycled solvent. The contacting solvent stream contains 0.45 mol% dissolved CO2 in methanol (CH3OH), which is recycled from the bottom of the stripping tower and enters the...

(a)Find the frequencies of the fundamental, 1st and 2nd overtones of a 1.00m wire whose wave...

(a)Find the frequencies of the fundamental, 1st and 2nd overtones of a 1.00m wire whose wave speed is 200m/s. (b) Find the wavelengths of the sound waves created by the vibrating wire for all three modes (speed of sound is 345m/s). Also, why is wave speed from (a) different from the speed of sound?

Using newtons gravitation laws, design a program in C++ that determine the position of n=3 number...

Using newtons gravitation laws, design a program in C++ that determine the position of n=3 number of bodies relative to each other, and outputs the results in a ongoing table that constantly updates as long as the simulation runs, and a pgPlot. Implement the newtonian equations using the LEAPFROG Method. Show how the you solved the equations. Make sure to describe each section of your code to describe what each part of your code is responsible for (i.e use //)...

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