In a PM modulator let the information signal be

Water is to be cooled by passing through the tube in an insulated cross-flow heat exchanger, while air flows over the outside surface of the tube. The water enters the 4.0 cm-diameter pipe with a velocity of 15 m/s, a temperature of 150oC, and a quality of 0.10. The water exits as a liquid at 100oC. (This can be approximated as a saturated liquid at 100oC.) The air enters the heat exchanger at 15oC. (a) For a mass flow rate of the air of 5.0 kg/s, determine the air exit temperature. (b) Using your heat exchanger model to acquire the data, plot the exit temperature of the air as the air mass flow rate varies from 4.0 kg/s to 25 kg/s.

Consider State 1 to be the water inlet and State 2 to be the water outlet. Consider State 3 to be the air inlet and State 4 to be the air outlet. Given: T1 = 150oC; x1 = 0.10; D1 = 4.0 cm = 0.04 m; V1 = 15 m/s; T2 = 100oC (take x2 = 0) T3 = 15oC, m?air = 5.0 kg/s Assume: Q? = 0 (insulated). Also, given no other information regarding the heat exchanger, make the following common heat exchanger assumptions: W? = ?KE =?PE = 0 Also, assume the heat exchanger is a multiple-inlet, multiple-outlet, steady-state, steady-flow device. Treat the air as an ideal gas with constant specific heats: cp = 1.005 kJ/kg-K; ?hair = cp,air ?Tair What will be an ideal response?

The muscles move the bones through connective tissue called:

a. Ligaments c. Cartilage b. Tendons d. Marrow

Use factors and a spreadsheet to determine the in­terest rate per period from the following equation: 0 = ?40,000 + 8000(P?A,i*,5) + 8000(P?F,i*,8)

What will be an ideal response?

Analyze and describe how SAE bolt grading can be recognized by a technician.

What will be an ideal response?