TAGUCHI LOSS FUNCTION EXAMPLE PROBLEMS 1. A blueprint specification for the thickness of a dishwasher part at Partspalace‚ Inc. is0.325 ± 0.025 centimeters (cm). It costs $10 to scrap a part that is outside thespecifications. Determine the Taguchi loss function for this situation. 2. A team was formed to study the dishwasher part described in Problem 1. Whilecontinuing to work to find the root cause of scrap‚ they found a way to reduce the scrapcost to $5 per part. a. Determine the Taguchi loss
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7 Project ll One of the most common models of population growth is the exponential model. These models use functions of the torm p(t) : po€rt‚ wherep6 is the initial population and r > 0 is the rate constant. Because exponential models describe unbounded growth‚ they are unrealistic over long periods of time. Due to shortages of space and resources‚ all populations must eventually have decreasing grovtrth rates. Logistic growth models allow for exponential growth when the population is small
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ASSESSMENT ON ENERGY CONSUMPTION OF HOUSEHOLDS IN BUSAY HEIGHTS‚ BUSAY‚ CEBU CITY: BASIS FOR ENERGY CONSUMPTION REDUCTION _________________________________ A Research Proposal Presented to the Faculty of the Department of Accountancy School of Business and Economics University of San Carlos Cebu City‚ Philippines _______________________________ In Partial Fulfillment of the Requirements for the course BA 109 ____________________________
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PROPERTIES OF SINE AND COSINE FUNCTIONS: 1. The sine and cosine functions are both periodic with period 2π. 2. The sine function is odd function since it’s graph is symmetric with respect to the origin‚ while the cosine function is an even function since it’s graph is symmetric with respect to y axis. 3. The sine functions: a. Increasing in the intervals[0‚ π/2]and [3π/2‚ 2π]; and b. Decreasing in the interval [π/2‚ 3π/2]‚over a period of 2 π. 4. The cosine function is: a. Increasing in the interval
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where m0 is the rest mass of the particle and c is the speed of light in a vacuum. Find the inverse function of f and explain its meaning. Solution. We simply solve for v: m= m0 1− v 2 /c2 =⇒ m 1 − v 2 /c2 = m0 =⇒ m2 1 − v2 c2 = m2 0 m2 v2 =⇒ 1 − 2 = 0 c m2 =⇒ v2 m2 =1− 0 c2 m2 m0 m m0 m 2 =⇒ v 2 = c2 1 − 2 =⇒ v = ±c 1 − Our new function v(m) gives velocity v as a function of m. In particular‚ v(m) gives the velocity (as measured by a relatively stationary observer) that
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World energy consumption World energy consumption in 2010: over 5% growth [6] Energy markets have combined crisis recovery and strong industry dynamism . Energy consumption in the G20 soared by more than 5% in 2010‚ after the slight decrease of 2009. This strong increase is the result of two converging trends. Onthe one-hand‚ industrialized countries‚ which experienced sharp decreases in energy demand in 2009‚ recovered firmly in 2010‚ almost coming back to historical trends. Oil‚ gas‚ coal‚ and
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Inverse In this week’s assignment‚ I will be solving functions with different values and variables. Many companies and businesses‚ use these methods to either make progress or to change something that will benefit their success. The first function is: (f – h)(4) f(4) – h(4) I multiplied 4 with each variable. f(4) = 2(4) + 5 The x is replaced with 4. f(4) = 13 I used the order of operation to evaluate this function. h(4) = (7 – 3)/3 I will repeat the steps that I used
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BUSINESS MATHEMATICS: ASSIGNMENT - “Section” 5.1‚ page 182. (1) Write the general form of a linear function involving five independent variables. (2) Assume that the salesperson in Example 1 (page 177) has a salary goal of $800 per week. If product B is not available one week‚ how many units of product A must be sold to meet the salary goal? If product A is unavailable‚ how many units be sold of product B? (3) Assume in Example 1 (page 177) that the salesperson receives a bonus when combined
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and Logarithmic Functions 2.2 Logarithmic Functions MATH14 • Logarithmic Function with base b • Graph of Logarithmic Function • Natural Logarithmic Function • Properties of Logarithmic Functions • Exponential and Logarithmic Equations Logarithmic Function with base b Definition: The logarithmic function with base b is the inverse of the exponential function with base b. y logb x Note: Dom f if and only if x b y Rng f Logarithmic Function with base b Examples:
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HADNOUT E.13 - EXAMPLES ON TRANSFER FUNCTIONS‚ POLES AND ZEROS Example 1 Determine the transfer function of the mass-spring-damper system. The governing differential equation of a mass-spring-damper system is given by m x + c x + kx = F . Taking the Laplace transforms of the above equation (assuming zero initial conditions)‚ we have ms 2 X ( s ) + csX ( s ) + kX ( s ) = F ( s )‚ X ( s) 1 ⇒ = . 2 F ( s ) ms + cs + k Equation (1) represents the transfer function of the mass-spring-damper system. Example
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