Briefly describe the relationship between the thermal conductivity, k, and the average coefficient of linear expansion,...

The coefficient of thermal area expansion for a material is (3α) that means 3 times its...

The coefficient of thermal area expansion for a material is (3α) that means 3 times its coefficient of thermal linear expansion (α). (4α) that means 4 times its coefficient of thermal linear expansion (α). (2α) that means 2 times its coefficient of thermal linear expansion (α).

2 a)How is the thermal coefficient of linear expansion determined experimentally?    b)What are the units...

2 a)How is the thermal coefficient of linear expansion determined experimentally?    b)What are the units of the thermal coefficient of linear expansion?    c)What is meant by the fractional change in length?

The thermal conductivity of a sheet of rigid,extruded insulation is k = 0.020 W/(m*K). The measured...

The thermal conductivity of a sheet of rigid,extruded insulation is k = 0.020 W/(m*K). The measured temperature difference across a 30-mm-thick sheet of the material is T1-T2=10 C. a.) Assuming 1-D, steady state conditions withouth thermal energy generation in the material, what is the heat flux through a 2 m x 3 m sheet of the insulation? b.) What would be the effect on the rate of heat transfer through the sheet if a material with a relatively higher thermal...

Consider a material whose linear coefficient of expansion is α. A vessel is made with this...

Consider a material whose linear coefficient of expansion is α. A vessel is made with this material in the shape of a cylinder of volume V and completely filled up to the brim with a liquid. When the system of vessel plus the liquid is heated, the level of liquid in the vessel remains constant. What is the coefficient of expansion of volume of the liquid? (A) V/(V+α) (B) V/(V-α) (C) (V+α)/V (D) 3α

To determine the effect of the temperature dependence of the thermal conductivity on the temperature distribution...

To determine the effect of the temperature dependence of the thermal conductivity on the temperature distribution in a solid, consider a material for which this dependence may be represented by: k = k0 + a T, where “k0“ is a positive constant and “a” is a coefficient that may be positive or negative. Starting with a steady-state energy balance, derive a relationship for temperature (T) as a function of distance (x) from the lower temperature wall. You may assume that...

The coefficient of thermal conductivity of a bar of metal of length L and uniform cross...

The coefficient of thermal conductivity of a bar of metal of length L and uniform cross section A is expressed as k = a + x, where a is a constant and x is the distance from one end of the bar. Calculate the rate of heat transfer H if the two ends are kept at temperatures THand TL respectively

Please answer the question briefly and clearly. 1. The best model to describe a linear relationship...

Please answer the question briefly and clearly. 1. The best model to describe a linear relationship between two variables is the _______. 2. An assumption of linear regression states that for each value of X, there is a group of Y values that are statistically (Independent) and (normally distributed) about the regression line. 3. If the slope of a regression line is zero, the orientation of the regression line is (Flat, or Constant), which indicates a lack of a relationship....

A 40-mm-thick plain wall of thermal conductivity 0.04 W/m-K and of temperature 304 K is exposed...

A 40-mm-thick plain wall of thermal conductivity 0.04 W/m-K and of temperature 304 K is exposed to both cold fluid and surroundings both at 298 K. The cold fluid and wall provide that the heat transfer coefficient is 10.5 W/m2-K and the emissivity of the wall is 0.83. Given that the area of the wall is 1.5m2 If the total heat transferred is 140.6987W, find the temperature of the other side of the plain wall

The density of glycerin at 25◦C is 1.26201 × 103 kg/m3. Its thermal volume expansion coefficient...

The density of glycerin at 25◦C is 1.26201 × 103 kg/m3. Its thermal volume expansion coefficient is 4.85 × 10−4 ◦C−1. Imagine that I have a 1 cm diameter ball of some material with a density of 1.27000 × 103 kg/m3 and a linear thermal expansion coefficient of 2.25 × 10−4 ◦C−1 sitting in one liter (0.001 m3) of 25◦C glycerin. (a) How much do I have to change the temperature of the glycerin and the ball to make the...

Stainless steel has a specific heat capacity of 500 J/(kg.K) and a linear thermal expansion coefficient...

Stainless steel has a specific heat capacity of 500 J/(kg.K) and a linear thermal expansion coefficient of 1.7 x 10-5 /K. Consider a stainless steel rod which has a length of 1.00 m and a diameter of 5.00 mm. When the rod is heated from room temperature to a new temperature T, its length increases to 1.01 m. How much heat was needed to heat the rod? The density of stainless steel is 8.0 g/cm3. Question 16 options: 130 kJ...