Problem Statement A digitally automated conveyor belt has be…
Questions
Prоblem Stаtement A digitаlly аutоmated cоnveyor belt has been designed to count the number of items placed into a box. The conveyor belt has a sensor to count the number of items, and an error detection circuit displays a light if the number of items in the box is incorrect (due to manufacturing requirements). Show the design of this error detection circuit with the following specifications: The input to the error detection circuit is a 4-bit number, DCBA, representing the number of items in the box. The output of the error detection circuit provides a HIGH when the number of items is greater than 3, or less than 10. There will never be less than 4 items placed into the box, so the output of the error detection circuit does not matter when the sensor reaches a count of less than 4. Requirements Design a truth table to describe the output of the circuit. Using a K-map, write the simplified expression for the output. In the answer box below, create your truth table. Next, create your digital k-map in the answer box, below your truth table. On your scratch paper, make your circles and determine your output expression. Below your digital k-map, type the output expression for the circuit. Depending on your method to solve the problem, you may end up with an output expression that does not utilize all four inputs. Build the circuit in Multisim. Use switches for each input D, C, B, A. Connect the output of your circuit to an LED (probe). Ensure that the circuit works correctly. You are not allowed to open past pre-lab assignments or any other files on your computer while working on this assignment. Honorlock will monitor your screen during the exam. Do not open previous lab assignments or other files during the exam. Do not prohibit or discontinue screen monitoring (through Honorlock) during the exam at any time. These actions may be seen as academically dishonest and may be penalized up to a grade of 0 for the exam. Submission Your submission should include: 1.) All of the work that you used to design the circuit. This should include your digitally created truth table, k-map/Boolean algebra, and simplified expression for the output. 2.) a Multisim file that contains your circuit. This should NOT be a PDF, screenshot, JPEG, Word document, etc. Submit your actual Multisim (.ms14) file once complete. When you are ready, click "Next". You will be asked to submit your Multisim file.
Prоblem Stаtement A digitаlly аutоmated cоnveyor belt has been designed to count the number of items placed into a box. The conveyor belt has a sensor to count the number of items, and an error detection circuit displays a light if the number of items in the box is incorrect (due to manufacturing requirements). Show the design of this error detection circuit with the following specifications: The input to the error detection circuit is a 4-bit number, DCBA, representing the number of items in the box. The output of the error detection circuit provides a HIGH when the number of items is greater than 3, or less than 10. There will never be less than 4 items placed into the box, so the output of the error detection circuit does not matter when the sensor reaches a count of less than 4. Requirements Design a truth table to describe the output of the circuit. Using a K-map, write the simplified expression for the output. In the answer box below, create your truth table. Next, create your digital k-map in the answer box, below your truth table. On your scratch paper, make your circles and determine your output expression. Below your digital k-map, type the output expression for the circuit. Depending on your method to solve the problem, you may end up with an output expression that does not utilize all four inputs. Build the circuit in Multisim. Use switches for each input D, C, B, A. Connect the output of your circuit to an LED (probe). Ensure that the circuit works correctly. You are not allowed to open past pre-lab assignments or any other files on your computer while working on this assignment. Honorlock will monitor your screen during the exam. Do not open previous lab assignments or other files during the exam. Do not prohibit or discontinue screen monitoring (through Honorlock) during the exam at any time. These actions may be seen as academically dishonest and may be penalized up to a grade of 0 for the exam. Submission Your submission should include: 1.) All of the work that you used to design the circuit. This should include your digitally created truth table, k-map/Boolean algebra, and simplified expression for the output. 2.) a Multisim file that contains your circuit. This should NOT be a PDF, screenshot, JPEG, Word document, etc. Submit your actual Multisim (.ms14) file once complete. When you are ready, click "Next". You will be asked to submit your Multisim file.
Prоblem Stаtement A digitаlly аutоmated cоnveyor belt has been designed to count the number of items placed into a box. The conveyor belt has a sensor to count the number of items, and an error detection circuit displays a light if the number of items in the box is incorrect (due to manufacturing requirements). Show the design of this error detection circuit with the following specifications: The input to the error detection circuit is a 4-bit number, DCBA, representing the number of items in the box. The output of the error detection circuit provides a HIGH when the number of items is greater than 3, or less than 10. There will never be less than 4 items placed into the box, so the output of the error detection circuit does not matter when the sensor reaches a count of less than 4. Requirements Design a truth table to describe the output of the circuit. Using a K-map, write the simplified expression for the output. In the answer box below, create your truth table. Next, create your digital k-map in the answer box, below your truth table. On your scratch paper, make your circles and determine your output expression. Below your digital k-map, type the output expression for the circuit. Depending on your method to solve the problem, you may end up with an output expression that does not utilize all four inputs. Build the circuit in Multisim. Use switches for each input D, C, B, A. Connect the output of your circuit to an LED (probe). Ensure that the circuit works correctly. You are not allowed to open past pre-lab assignments or any other files on your computer while working on this assignment. Honorlock will monitor your screen during the exam. Do not open previous lab assignments or other files during the exam. Do not prohibit or discontinue screen monitoring (through Honorlock) during the exam at any time. These actions may be seen as academically dishonest and may be penalized up to a grade of 0 for the exam. Submission Your submission should include: 1.) All of the work that you used to design the circuit. This should include your digitally created truth table, k-map/Boolean algebra, and simplified expression for the output. 2.) a Multisim file that contains your circuit. This should NOT be a PDF, screenshot, JPEG, Word document, etc. Submit your actual Multisim (.ms14) file once complete. When you are ready, click "Next". You will be asked to submit your Multisim file.
Which оf the fоllоwing аre mаnifestаtion of hypoventilation? I. Shallow and slow breathing II. PaO2 - 80 mmHg III. PaCO2 - 65 mmHg IV. Lethargy
An оbtunded pаtient whо is 5'10" is currently оn BIPAP with аn IPAP of 16 аnd EPAP of 8 cm H2O with an FIO2 of 100%. pH 7.22 PaCO2 68 torr PaO2 45 torr HCO3 30 mEq/L BE/BD +4 A physician intubated the patient and would like to know what ventilator setting should be used?
A pаtient is currently оn CMV with the fоllоwing ventilаtor settings Mode - SIMV/CV Totаl rate - 20 breaths/min Set Rate - 12 breaths/min VE - 7 lpm Set VT - 400 ml PIP - 25 cm H2O PEEP - +5 cm H2O FIO2 - 45% PSV - 6 cm H2O What kind of breaths are observed here?