PIease answer correctly At time = 0, a constant heating power of 100 kW is applied to a boiler that intends to raise the temperature of thefluid inside to 100 °C. The initial temperature of the fluid is 25 °C. Temperature is taken every 2 minutes, starting at t= 0. The log after 1 hour is shown below. The x-axis is time (in minutes) while the y-axis is the temperature T. Thesystem may be assumed to be of first order.110.00100.0090.0080.0070.0060.0050.0040.0030.0020.00Answer:00.75310What is the DC gain of the system,O 11.33320Let 8(t) be the function describing the temperature increase, i.e. 8(t) = T(t) - 25, where T is the actual temperature.The input power is p(t) = 100 u(t) kW.What is a feasible time delay, in minutes, for the system?What is the transfer functione(s) =P(s)30e(s)P(s)4050(in C°/kW)?60e(s)-? Provide at least 6 significant digits for the numerical coefficients.P(s)

At time = 0, a constant heating power of 100 kW is applied to a boiler that intends to raise the temperature of the fluid inside to 100 °C. The initial temperature of the fluid is 25 °C. Temperature is taken every 2 minutes, starting at t = 0. The log after 1 hour is shown below. The x-axis is time (in minutes) while the y-axis is the temperature T. The system may be assumed to be of first order.

At time = 0, a constant heating power of 100 kW is applied to a boiler that intends to raise the temperature of the fluid inside to 100 °C. The initial temperature of the fluid is 25 °C. Temperature is taken every 2 minutes, starting at t = 0. The log after 1 hour is shown below. The x-axis is time (in minutes) while the y-axis is the temperature T. The system may be assumed to be of first order.

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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