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Mechanical Engineering

Instructions:

Answer 50 questions in 15 minutes.
If you are not ready to take this test, you can study here.
Match each statement with the correct term.
Don't refresh. All questions and answers are randomly picked and ordered every time you load a test.

This is a study tool. The 3 wrong answers for each question are randomly chosen from answers to other questions. So, you might find at times the answers obvious, but you will see it re-enforces your understanding as you take the test each time.

1. Four Stroke Engine -Used in hotter areas because more efficient -Higher compression ratio than gasoline
Diesel Engine
Third Stroke (Diesel Engine)
First Stroke (4 Stroke Engine)
Newton's First Law of Motion

2. Piston travels up and both plugs are closed
Direction of Forces
Second Stroke (4 Stroke Engine)
Second Stroke (rotary)
Moment Arm Equation

3. Causes acceleration -Units: USA: 32.2 ft/s^2 SI: 9.8 m/sec^2
Volume
Gravity
Metrology
System

4. Air is compressed - work is done on the system
Second Stroke (rotary)
Third Stroke (Diesel Engine)
Second Stroke (Diesel Engine)
Length

5. Force without machine/Force with machine
Surroundings
Gravity
Engineers and scientists need a common language
Mechanical Advantage Equation

6. For every action there is an equal and opposite reaction -Force -F=mg -Earth exerts a force on all of us

7. (pi) x (radius)^2
Fluids
Area of a circle equation
Volume
Mechanical Advantage

8. Psi - newtons - pascals
First Stroke (Diesel Engine)
Pythagorean Theorem
Units for Pressure
Pressure

9. Old technology- harder to service-Still used on big trucks and trailers because they are too expensive to convert
Area
Mechanics describe how forces affect a body
Hybrid
Drum Brakes

10. Dimensions and units
Gravity
Equation for Mechanical Advantage regarding inclined planes
Newton's Second Law
Engineers and scientists need a common language

11. Static - Dynamic
Hybrid
System
Mechanics describe how forces affect a body
Diesel Engine

12. What we are studying
Third Stroke (rotary)
Hydrodynamics
First Stroke (rotary)
System

13. Compression of fuel mix
System International (SI)
Static
Power Equation
Second Stroke (rotary)

14. Weight/Time
Force lets us do work on a system
Power Equation
Applied Brakes
will move

15. Describes how applied forces bring a body into rest or equilibrium
More than one force
Forces
Statics
Common Brake Characteristics

16. Describes how applied forces bring a body into motion
System International (SI)
Derived Dimension
Dynamics
Static

17. (Force)(Distance)/Seconds
Vectors
Moment Arm
Power Equation
Hybrid Parallel

18. ICE generates electricity for electric battery -Electric motor turns wheels
Derived Dimension
Moment Arm
More than one force
Hybrid Series

19. An indication of kinetic energy of mass at the molecular level
Aerodynamics
Torque
Pressure
Temperature

20. The magnitude of something in a particular direction
If the force is applied at the center of the rotation
Force Equation
Mechanical Advantage Equation
Length

21. Allows comparison between different measuring systems and units - Necessary to market internationally
Compression
Conversions
Torque
Temperature

22. Every object continues in motion in a straight line unless acted upon by some force -Every object at rest continues at rest unless acted upon by a force -So forces cause a change in an object's state of motion

23. Three- dimensional property measured in units of length times length times length =length x width x height
decrease
no movement
Volume
Third Stroke (rotary)

24. When the work done by the effort exceeds the work done by the load - the load...
decrease
will move
Steam Engine
Dynamics

25. Rotation may occur
First Stroke (4 Stroke Engine)
If the force is applied away from the center of rotation
Acceleration
Mechanics describe how forces affect a body

26. Length x Width
Mechanical Advantage
Power Equation
Drum Brakes
Area Equation

27. A small piece that makes up a larger whole. Each component is there for a specific job - but the sum of components
decrease
Static
Component
Second Stroke (2 Stroke Engine)

28. Applied at an angle or parallel to a surface
Engineers and scientists need a common language
no movement
Inclined Plane
Shear

29. Brake pedal and linkage - Master Cylinder - Wheel cylinders (4) - Hydraulic lines - Hydraulic fluid - Mechanical advantage is provided by the foot pedal to the booster (level) - A greater force is applied on the wheel cylinders than on the brake peda
Applied Brakes
Drum Brakes
Moment Arm Equation
Derived Dimension

30. Friction changes KE to heat energy- Heat is transferred to air- Front brakes work harder than rear- Some brakes use asbestos- Newer cars have dual braking systems - Don't drive through water or your brakes won't work well (ride breaks to dry them out
If the force is applied at the center of the rotation
Mechanical Advantage Equation
Rotation
Common Brake Characteristics

31. Length / Time
Drum Brakes
Velocity
Gravity
Fourth Stroke (rotary)

32. More compact (size of beer keg) - No valves -Benefits: fewer parts - lower engine weight Problems: seal - lower inertia forces -1 rotar=3 to 4 pistons
4 Stroke Engine
Force lets us do work on a system
Gravity
Rotary

33. If the force needed to operate the machine (input force) is less than the force being opposed or the load being moved (output force) -The ratio of the output force divided by the input force -If the number is greater than one - there is a mechanical
Mechanical Engineering
Mechanical Advantage
Hydraulic Cylinders
Area of a circle equation

34. External Combustion engine -Only used in factories and plants (not used in cars)
System International (SI)
Hybrid
Steam Engine
Dynamics

35. What we are not studying
Surroundings
Hybrid Series
more than one force
decrease

36. Combustion of fuel mixture ignited by spark plug
Gravity
Third Stroke (rotary)
Metrology
Second Stroke (2 Stroke Engine)

37. Ignition - power stroke
Third Stroke (rotary)
Second Stroke (rotary)
Mechanics describe how forces affect a body
Dynamics

38. Energy may enter or leave. No mass enters or leaves the system i.e. Closed water bottle - car engine - human
Closed System
US Customary
Hydraulic Cylinders
Dynamics

39. Used in cars -2 rotations of crankshaft -4 strokes (down - up - down - up) of piston - i.e. cars - trucks - planes - buses - motorcycles - submarine -1% of gas actually moves people
First Stroke (2 Stroke Engine)
4 Stroke Engine
Effort
Second Stroke (rotary)

40. Pistons connected to crankshaft -1 stroke up - 1 stroke down of the piston -1 rotation of the piston -Problems: high emissions - noisy - inefficient - high vibrations - unburnt fuel - burnt oil -Benefits: small and light -Being phased out in USA - i.
Third Stroke (4 Stroke Engine)
First Stroke (rotary)
2 Stroke Engine
Area of a circle equation

41. Exhaust of combustion products
Couple
2 Stroke Engine
Length
Fourth Stroke (rotary)

42. A^2+b^2=c^2
Force lets us do work on a system
no movement
Pythagorean Theorem Equation
Common Brake Characteristics

43. When the work done by the effort just equals the work done by the load - ______ of the machine will occur
Machine
no movement
Result of Applying a force to a rigid body at rest
Gravity

44. Mass x acceleration
Temperature
Force Equation
Length
Law of Conservation of Mass

45. 1. Magnitude: size - a numberi.e. 50 mph 2. Direction: angle i.e. N -E -W -S
Mechanics describe how forces affect a body
Forces and Vectors
2 Stroke Engine
Hybrid

46. Describes a physical property of anything - What we are measuring
Second Stroke (2 Stroke Engine)
Weight
Surroundings
Dimension

47. A quantity that has both magnitude and direction when placed within a coordinate system -Forces and Velocity i.e. driving 50 miles to the northeast
Pythagorean Theorem
Fluid
Vectors
Pascal's Principle

48. Both engines drive wheels -ICE used for cruising -Electric motor assists with low speed for acceleration and hill climbing
Hybrid Parallel
Pressure
Forces and Vectors
Steam Engine

49. Mass can neither by created nor destroyed - only transformed
Common Brake Characteristics
Units
Law of Conservation of Mass
Shear

50. Body in motion (car)
2 Stroke Engine
Area
Dynamics
Area Equation