he steady state solution of stable systems is due to simple poles in the jO axis of the s-plane coming from the input. Suppose the transfer function of the system is:

H_ (s)= (Y(s))/(X(s)) = 1/([(s+1)^2]+4))

Find the poles and zeros of H(s) and plot them in the s-plane. Find then the corresponding impulse response h(t). Determine if the impulse response of this system is absolutely integrable so that the system is BIBO stable.

Determine the frequency response and the magnitude response : determine the frequency response and the magnitude response of the z tranfer function below. please show step to step how to get the result. D is a positive interger |

What is the worst-case delay of an n-bit ripple-carry adder : Given that Xi, Yi and Ci represent the addend bits and carry-in at position i, i.e. Stage i, specify and compare the logical expressions for Si and Ci+1, i.e. the sum and carry-out from Stage i, between the one-bit half adder, the one-bit full add.. |

Compute the wavelength in nanometers of a photon emitted : Calculate the wavelength (in nanometers) of a photon emitted by a hydrogen atom when its electron drops from the n = 5 state to the n = 3 state |

Which of following is the slope of the security marketline : Which of the following is the slope of the security marketline? |

Find then the corresponding impulse response h : Find the poles and zeros of H(s) and plot them in the s-plane. Find then the corresponding impulse response h(t). Determine if the impulse response of this system is absolutely integrable so that the system is BIBO stable. |

Advantages and disadvantages of each solution : Business scenario that requires the use of healthcare information technology, analyze, evaluate, and recommend a healthcare application systems solution. |

What is going to happen to value of bond as time goes by : Consider the following bond: Face value = $1,000; coupon rate = 8%; yield to maturity = 5%; maturity = 5 years. |

Determine if the system is bibo stable : let X(s) be the Laplace Transform of signals that are bounded (i.e. the poles of X(s) are on the left-hand s-plane). Find lim [as t goes to infinity)] y(t). Determine if the system is BIBO stable. If not, determine what makes the system unstable. |

Determine what would the initial conditions be equal to : The transfer function of a causal LTI system is H(s)= 1/(s^2+4) Suppose we would like the output y (t) to be identical to zero for t = 0. If we let x (t) =δ(t), what would the initial conditions be equal to |

## Calculate the armature voltage required so that motor runsA separately excited dc motor turns at 1200rpm when the armature is connected to a 115V source. Calculate the armature voltage required so that the motor runs at 1500rpm. |

## Find how long will the cassette operate at normal powerThe four alkaline battery cells store a total of 200watt-seconds of energy. If the cassette player is drawing a constant 10mA from the battery pack, how long will the cassette operate at normal power |

## What is the rotor pole shift in electrical degreesa) If the excitation voltage E0 is equal to the terminla voltage ( 4kV ), what is the maximum real power which the motor can deliver without losing synchronism b) What is the rotor pole shift in electrical degrees, corresponding to the nominal loa.. |

## Determine change in resistance when the temperature risesA platinum resistance coil has a resistance at O0 C of 100 . Determine the change in resistance that will occur when the temperature rises to 30°C if the temperature coefficient of resistance is 0.0039 K-1. |

## A circuit is required to provide an adjustable voltagea- The adjustability of the potentiometer can be used to obtain an adjustable output voltage b- Both power supplies must be used so that the adjustable voltage can have both positive and negative values |

## Determine what is the output voltage at 75 degreeA potentiometer is wired is wired to represent a rotational range of 0-180 degree. The potentiometer is supplied with a voltage of 15 VDC. What is the output voltage at 75 degree |

## Find the carrier mobility and carrier densityA "Hall bar" specimen is 250 mm long, 12 mm wide, and 1.5 mm thick. Along the 250 mm direction (+x), +5 V drives a current of +1.75 mA. Along the 1.5 mm direction (+z) a magnetic field of 1 Tesla is applied. |

## Calculate and return an output of the total number of milesWrite a function that takes inputs of yards and feet (whole numbers) and calculates and returns an output of the total number of miles (a floating-point value). There are 5280 feet per mile. There are 3 feet in a yard. |

## What would be the pressure of oxygen in containerby finding the relevant air analysis, determine the partial pressure of nitrogen in the athmosphere at 1.00bar.f a sample of air at this pressure and 10°C was put nto a rigid container and then itd temperature raised to 91°C, what would be the pre.. |

## Design an op-amp amplifier circuitDesign an op-amp amplifier circuit where the smallest resistor available is 10k . The circuit must yield the relationships shown in the following equation: Vout = 8v1 + 8v2 - 4va - 9vb |

## Determine the voltage across the capacitorA 2.67-F and a 4.20-F capacitor are connected in series across a 25.0-V battery. A 8.24-F capacitor is then connected in parallel across the 2.67-F capacitor. Determine the voltage across the 8.24-F capacitor. |

## How to design a 4-bit serial equality comparatorDesign a 4-bit serial equality comparator. That is, if we have a3a2a1a0 = b3b2b1b0, then eq = 1. Note that a3a2a1a0 is stored at register 1, while b3b2b1b0 is stored at register 2. You have to implement the same function using a serial equality co.. |

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