In simulation, what value of the constant block gives a steady-state output temperature of 40 degrees C? (Round your answer to the nearest integer.)

𝐹=95𝐶+𝑘The above model is used to convert the temperature from Celcius to Fahrenhriet.Based on this model, if 40∘ C is equivalent to 104∘F , what is the value of k?

The ends of a uniform metal rod of length 100 cm and area of cross-section 2 cm2 are maintained at 0 °Cand 100 °C. At the mid point of the rod, heat is supplied at a constant rate of 40Js−1. If the temperature gradient on the higher temperature side of the rod in steady state is 50 x° cm−1, then the value of x is (Thermal conductivity of the metal =400 J s−1 m−1 K−1)Your Answer IncorrectCorre

Consider a brick wall (Fig. P10.1) of thicknessL=30 cm,k=0.7 W/m ∘ C. The inner surface is at28 ∘ Cand the outer surface is exposed to cold air at−15 ∘ C. The heat-transfer coefficient associated with the outside surface ish=40 W/m 2 ⋅ ∘ C. Determine the steadystate temperature distribution within the wall and also the heat flux through the wall. Use a two-element model, and obtain the solution by hand calculations. Assume onedimensional flow. Then prepare input data and run program HEAT1D.

What is a steady state? For a pipe being heated at a constant heating rate, can this water pipe be in a steady state? why?

An object, heated up to 80 0C and kept in an environment of 30 0C, the rate of temperature fall ofinitial temperature is 5 0C s-1.If the environmental temperature is reduced by 10 0C, What is therate of temperature fall of initial temperature.