LACI CIDC & M1 A1 0 SLPM FM1 S1 V1 P1 14 0 bar 7 1...
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LACI CIDC & M1 A1 0 SLPM FM1 S1 V1 P1 14 0 bar 7 1 point In the pneumatic circuit shown, the compressor is not turned on yet. What is the name of component P1? Pressure Source Pressure Indicator Variable Throttle Flow Control Valve Shutoff Valve 8 1 point Name the component A1 Unidirectional Motor Compressor Shutoff Valve Variable Throttle Valve 9 1 point Give the complete name of the component M1: Exercise 2 A1 M1 S1 0 SLPM FM1 V1 P1 0 bar 9 Variable inrottle valve 1 point Give the complete name of the component M1: 2 port - 2 position (2/2 way) normally open, manually operated (actuated), spring return, directional control valve 2 port - 3 position (2/3 way) normally open, manually operated (actuated), pneumatic impulse return, directional control valve 3 port - 2 position (3/2 way) normally open, manually operated (actuated), spring return, directional control valve 6 port - 2 position (6/2 way) normally closed, manually operated (actuated), spring return, directional control valve 10 1 point In what is M1 in Exercise 2 different from the component M1 of Exercise 1? In Ex 1, M1 is manually operated. In Ex 2, M1 is pneumatically operated. In Ex 1, M1 is normally closed. In Ex 2, M1 is normally open. In Ex 1, M1 is normally open. In Ex 2, M1 is normally closed. In Ex 1, M1 is spring return. In Ex 2, M1 is manually returned. Instructions Consider the pneumatic circuit shown Exercise 2 A1 M1 0 SLPM S1 V1 P1 12 O bar FM1 W Complete the following steps and then answer the questions: In the simulation software assigned by your instructor, within your Week1_Lab1_LastName_FirstName project file open a new diagram named Ex2. Build the circuit using the components shown or their equivalents. Start the simulation. This automatically turns on the compressor. What happens to the component A1? The Motor (A1) does not move until M1 is actuated. The Motor (A1) rotates until M1 is actuated. The Motor (A1) does nothing 12 1 point Click and hold down the Left Mouse Button (LMB) on the lever of the component M1 What happens to A1? A1 was not rotating and begins to rotate A1 was rotating and stops rotating A1 was not rotating and nothing changes A1 was rotating and nothing changes Exercise 2 M1 S1 0 SLPM V1 A1 FM1 D Release the LMB from M1 What happens to the component A1? A1 was not rotating and begins to rotate A1 was rotating and stops rotating A1 was not rotating and nothing changes A1 was rotating and nothing changes 14 1 point Which value is closest to the air flow rate in the circuit (including the unit)? 2.9 SLPM 62.2 SLPM 72.2 SLPM 82.2 SLPM P1 0 bar 15 1 point Which value is closest to the air pressure leaving the compressor (including the unit)? 8.7 bar 15 1 point Which value is closest to the air pressure leaving the compressor (including the unit)? 8.7 bar 9.7 bar 10.7 bar 141 bar 16 1 point What does "SLPM" stand for? Semi-Liquid Pneumatic Machine Solid Liter Past Meter Standard Liquid Past Measurement Standard Liter Per Minute 17 1 point Save your simulation project file. Did you save your file? Yes No LACI CIDC & M1 A1 0 SLPM FM1 S1 V1 P1 14 0 bar 7 1 point In the pneumatic circuit shown, the compressor is not turned on yet. What is the name of component P1? Pressure Source Pressure Indicator Variable Throttle Flow Control Valve Shutoff Valve 8 1 point Name the component A1 Unidirectional Motor Compressor Shutoff Valve Variable Throttle Valve 9 1 point Give the complete name of the component M1: Exercise 2 A1 M1 S1 0 SLPM FM1 V1 P1 0 bar 9 Variable inrottle valve 1 point Give the complete name of the component M1: 2 port - 2 position (2/2 way) normally open, manually operated (actuated), spring return, directional control valve 2 port - 3 position (2/3 way) normally open, manually operated (actuated), pneumatic impulse return, directional control valve 3 port - 2 position (3/2 way) normally open, manually operated (actuated), spring return, directional control valve 6 port - 2 position (6/2 way) normally closed, manually operated (actuated), spring return, directional control valve 10 1 point In what is M1 in Exercise 2 different from the component M1 of Exercise 1? In Ex 1, M1 is manually operated. In Ex 2, M1 is pneumatically operated. In Ex 1, M1 is normally closed. In Ex 2, M1 is normally open. In Ex 1, M1 is normally open. In Ex 2, M1 is normally closed. In Ex 1, M1 is spring return. In Ex 2, M1 is manually returned. Instructions Consider the pneumatic circuit shown Exercise 2 A1 M1 0 SLPM S1 V1 P1 12 O bar FM1 W Complete the following steps and then answer the questions: In the simulation software assigned by your instructor, within your Week1_Lab1_LastName_FirstName project file open a new diagram named Ex2. Build the circuit using the components shown or their equivalents. Start the simulation. This automatically turns on the compressor. What happens to the component A1? The Motor (A1) does not move until M1 is actuated. The Motor (A1) rotates until M1 is actuated. The Motor (A1) does nothing 12 1 point Click and hold down the Left Mouse Button (LMB) on the lever of the component M1 What happens to A1? A1 was not rotating and begins to rotate A1 was rotating and stops rotating A1 was not rotating and nothing changes A1 was rotating and nothing changes Exercise 2 M1 S1 0 SLPM V1 A1 FM1 D Release the LMB from M1 What happens to the component A1? A1 was not rotating and begins to rotate A1 was rotating and stops rotating A1 was not rotating and nothing changes A1 was rotating and nothing changes 14 1 point Which value is closest to the air flow rate in the circuit (including the unit)? 2.9 SLPM 62.2 SLPM 72.2 SLPM 82.2 SLPM P1 0 bar 15 1 point Which value is closest to the air pressure leaving the compressor (including the unit)? 8.7 bar 15 1 point Which value is closest to the air pressure leaving the compressor (including the unit)? 8.7 bar 9.7 bar 10.7 bar 141 bar 16 1 point What does "SLPM" stand for? Semi-Liquid Pneumatic Machine Solid Liter Past Meter Standard Liquid Past Measurement Standard Liter Per Minute 17 1 point Save your simulation project file. Did you save your file? Yes No
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