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7. Logged process temperatures are shown below deadband setpoint time ON.- heater Copy this plot for...
An object's velocity as a function of time is shown in the plot below. The object...
An object's velocity as a function of time is shown in the plot below. The object begins at position s = 10 m at t = 0 s. What is the object's total displacement at t = 7 s? What is the object's position at t = 7 s? What is the total distance the object Innis moved between t = 0 and t = 7 s. What is the acceleration of this object at t = 1, 3, 5...
2. In the constant volume, stirred-tank heater shown in the figure below, the flow rates and...
2. In the constant volume, stirred-tank heater shown in the figure below, the flow rates and material properties are held constant. The tank contains a heating element, which is initially off and the tank is the same temperature as the inlet stream. When t=0, the heater is turned on to a constant heating rate Q. For this material, assume C = C = Cp = Cy. m,Ti P,V,C, T(t) ń, r(t) o a. Write a transient thermal energy balance to...
Please explain all steps and reasoning! 6) For the circuit shown below, plot VO and V1...
Please explain all steps and reasoning!
6) For the circuit shown below, plot VO and V1 as a function of time in the plot shown below. The input voltage on the left is a sawtooth wave show below. The turn on voltage of the diodes are 1 V and 0.7 V as shown below. Use the CVD model Clearly mark the voltages. VNIV OD 0.7V Tapat Villay V San 210 mF Draw your final answer for Vo and V1 in...
Please explain all steps and reasoning! 6) For the circuit shown below, plot VO and V1...
Please explain all steps and reasoning!
6) For the circuit shown below, plot VO and V1 as a function of time in the plot shown below. The input voltage on the left is a sawtooth wave show below. The turn on voltage of the diodes are 1 V and 0.7 V as shown below. Use the CVD model Clearly mark the voltages. VNIV OD 0.7V Tapat Villay V San 210 mF Draw your final answer for Vo and V1 in...
(a) (3 pts.) Shown below is plot of concentration as a function of time for the...
(a) (3 pts.) Shown below is plot of concentration as a function of time for the reaction A = B. What is the value of the equilibrium constant (Kc) for this reaction? 0.100 0.080 0.060 B 0.040 Concentration (M) A 0.020 0.000 0.00 1.00 2.00 3.00 4.00 5.00 Time (min) (b) (4 pts.) The following pictures represent the equilibrium state for four different reactions of the type A, + X 2 2 AX (X=B, C, D, E) A atoms are...
This homework deals with a birth and death process with a birth rate λ.-lit 1 and m = a 1. A plot of λί and μί are shown below. Give a one-sentence description of how the birth rate is a function...
This homework deals with a birth and death process with a birth rate λ.-lit 1 and m = a 1. A plot of λί and μί are shown below. Give a one-sentence description of how the birth rate is a function of the state of the process, i. Do another one sentence description of the death rate. Then, explain how the birth and death rates will interact. That is, for what states should the process tend to grow, and grow...
4. The continuous-time signal e(t) has the Fourier transform X(jw) shown below. Xe(ju) is zero ou...
4. The continuous-time signal e(t) has the Fourier transform X(jw) shown below. Xe(ju) is zero outside the region shown in the figure X.Gj) -2T (300) -2r(100) 0 2n(100) 2T (300) We need to filter re(t) to remove all frequencies higher than 200 Hz. (a) Plot the effective continuous-time filter we need to implement. Label your plot. b) Suppose we decide to implement the filtering in discrete-time using the overall process (sample, filter, reconstruct) shown in the figure in Problem 3....
System Description A video camera system, similar to that shown in figure below, can automatically follow a subject. Th...
System Description A video camera system, similar to that shown in figure below, can automatically follow a subject. The tracking system consists of a dual-sensor and a transmitter, where one component is mounted on the camera and the other is worn by the subject. The sensors receive energy from the transmitter. An imbalance between the outputs of the two sens system to rotate the camera to balance out the difference and seek the source of energy. The angular movement of...
- Frequency Response (Amplitude Response only). Hz). with frequency, 22. for a discrete time system shown...
- Frequency Response (Amplitude Response only). Hz). with frequency, 22. for a discrete time system shown below. *(-1) - x[-2] - ... -0 and yf-1) - Y[-2] ... - x[r] - int) Find “Math Model" for the system. nt) Find "Transfer Function" for the system. Draw the pole-zero plot for the system (use unit circle on Re-Im axis) Sketch the amplitude response of the system → indicate values at important points (92 = 0, 1/4, 21/4, 37/4, T) include detailed...
3) Law of reflection (35 points) a. [10 points) On the diagram below, an incident ray...
3) Law of reflection (35 points) a. [10 points) On the diagram below, an incident ray is shown. Draw and label i. the normal ii. reflected ray iii. the angle of incidence and the angle of reflection b. [25 points) Below are five different combinations (a-e) of two mirrors (black lines) in each scenario with an incoming coming light ray shown (red or blue arrows). For each situation, complete the path that the incoming light ray will follow when bouncing...
An object's velocity as a function of time is shown in the plot below. The object begins at position s = 10 m at t = 0 s. What is the object's total displacement at t = 7 s? What is the object's position at t = 7 s? What is the total distance the object Innis moved between t = 0 and t = 7 s. What is the acceleration of this object at t = 1, 3, 5...
2. In the constant volume, stirred-tank heater shown in the figure below, the flow rates and material properties are held constant. The tank contains a heating element, which is initially off and the tank is the same temperature as the inlet stream. When t=0, the heater is turned on to a constant heating rate Q. For this material, assume C = C = Cp = Cy. m,Ti P,V,C, T(t) ń, r(t) o a. Write a transient thermal energy balance to...
Please explain all steps and reasoning!
6) For the circuit shown below, plot VO and V1 as a function of time in the plot shown below. The input voltage on the left is a sawtooth wave show below. The turn on voltage of the diodes are 1 V and 0.7 V as shown below. Use the CVD model Clearly mark the voltages. VNIV OD 0.7V Tapat Villay V San 210 mF Draw your final answer for Vo and V1 in...
Please explain all steps and reasoning!
6) For the circuit shown below, plot VO and V1 as a function of time in the plot shown below. The input voltage on the left is a sawtooth wave show below. The turn on voltage of the diodes are 1 V and 0.7 V as shown below. Use the CVD model Clearly mark the voltages. VNIV OD 0.7V Tapat Villay V San 210 mF Draw your final answer for Vo and V1 in...
(a) (3 pts.) Shown below is plot of concentration as a function of time for the reaction A = B. What is the value of the equilibrium constant (Kc) for this reaction? 0.100 0.080 0.060 B 0.040 Concentration (M) A 0.020 0.000 0.00 1.00 2.00 3.00 4.00 5.00 Time (min) (b) (4 pts.) The following pictures represent the equilibrium state for four different reactions of the type A, + X 2 2 AX (X=B, C, D, E) A atoms are...
This homework deals with a birth and death process with a birth rate λ.-lit 1 and m = a 1. A plot of λί and μί are shown below. Give a one-sentence description of how the birth rate is a function of the state of the process, i. Do another one sentence description of the death rate. Then, explain how the birth and death rates will interact. That is, for what states should the process tend to grow, and grow...
4. The continuous-time signal e(t) has the Fourier transform X(jw) shown below. Xe(ju) is zero outside the region shown in the figure X.Gj) -2T (300) -2r(100) 0 2n(100) 2T (300) We need to filter re(t) to remove all frequencies higher than 200 Hz. (a) Plot the effective continuous-time filter we need to implement. Label your plot. b) Suppose we decide to implement the filtering in discrete-time using the overall process (sample, filter, reconstruct) shown in the figure in Problem 3....
System Description A video camera system, similar to that shown in figure below, can automatically follow a subject. The tracking system consists of a dual-sensor and a transmitter, where one component is mounted on the camera and the other is worn by the subject. The sensors receive energy from the transmitter. An imbalance between the outputs of the two sens system to rotate the camera to balance out the difference and seek the source of energy. The angular movement of...
- Frequency Response (Amplitude Response only). Hz). with frequency, 22. for a discrete time system shown below. *(-1) - x[-2] - ... -0 and yf-1) - Y[-2] ... - x[r] - int) Find “Math Model" for the system. nt) Find "Transfer Function" for the system. Draw the pole-zero plot for the system (use unit circle on Re-Im axis) Sketch the amplitude response of the system → indicate values at important points (92 = 0, 1/4, 21/4, 37/4, T) include detailed...
3) Law of reflection (35 points) a. [10 points) On the diagram below, an incident ray is shown. Draw and label i. the normal ii. reflected ray iii. the angle of incidence and the angle of reflection b. [25 points) Below are five different combinations (a-e) of two mirrors (black lines) in each scenario with an incoming coming light ray shown (red or blue arrows). For each situation, complete the path that the incoming light ray will follow when bouncing...
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