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Mechanical Systems

Instructions:

Answer 50 questions in 15 minutes.
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Match each statement with the correct term.
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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. Force of the small piston/area of the small piston = Force of the large piston/Area of the large piston
formula for work
multiplying gears
inclined plane
formula for pressure in hydraulics

2. Heated water to make steam and then used to move a piston in a circular motion
lubricants
fulcrum
formula for MA
steam turbine

3. Bigger gear
3 classes of levers
formula for efficiency
friction
driving gear

4. The rate of motion that an object changes position
speed
formula for work
Pascal's Law
cost of MA

5. Reason that machines are never 100% efficient
driving gear
effort force
transmission
friction

6. Is done when a force acts on an object to make that object move - a transfer of energy
Lever
The Industrial Revolution
work
gears

7. The combustion occurs inside the engine. The pistons goes through 4 steps: Intake stroke (taking in the fuel) - compression stroke (compressing the fuel- air mixture) - power stroke (the fuel- air mixture is ignited) - exhaust stroke (waste products
formula for pressure in hydraulics
internal combustion engine
respiratory system
pascal

8. F x d
speed
potential energy
formula for work
ergonomics

9. Are used to overcome the frictional force of the machine
lubricants
respiratory system
pinion
formula for MA

10. A fixed point
friction
Pneumatic systems
fulcrum
formula for pressure

11. A very complex combination of pulleys - including fixed and movable is called
load arm
block and tackle
formula for work
mass production

12. Used to apply force to the fluid - which creates pressure in the fluid
formula for MA
3 classes of levers
pascal
input piston

13. Science of designing machines to suit people
mass production
speed ratio
gravitational potential energy
ergonomics

14. Is the work done by the machine
mechanical advantage
pressure
multiplying gears
work output

15. A rigid bar or plank that can rotate around a fixed point
Lever
load
pinion
steam turbine

16. Force exerted on the lever to make it move
effort force
pressure
transmission
speed

17. A combination of two wheels of different diameters that turn together - a lever that rotates in a circle around a center point or fulcrum.
wheel and axle
complex machines
output piston
pascal

18. 1st class - 2nd class - 3rd class
Hydraulic systems
reducing gears
effort force
3 classes of levers

19. The relationship between the speed of rotations of a smaller gear and a larger gear - can be calculated by dividing the number of driver gear teeth by the number of follower gear teeth.
load arm
work
speed ratio
transmission

20. Or ramp - makes it easier to move a load higher than it is - but - it has to be moved over a much longer distance.
internal combustion engine
transmission
The Industrial Revolution
inclined plane

21. Distance between the fulcrum and the load
gravitational potential energy
formula for pressure in hydraulics
pulley
load arm

22. To increase the force on the output piston - the input piston must move through a greater distance
The Industrial Revolution
cost of MA
wheel and axle
inclined plane

23. Unit of measurement for pressure
pulley
pascal
speed ratio
steam engine

24. Energy of motion
pinion
parallel gears
speed advantage
kinetic energy

25. Stored energy
multiplying gears
potential energy
pressure
effort force

26. Work unit
transmission
joule
effort arm
output piston

27. A measure of the amount of force applied to a given area
pressure
multiplying gears
ergonomics
cost of MA

28. Is the work needed to use - or operate the machine
Work input
inclined plane
reducing gears
internal combustion engine

29. Work done by machine / work done to make the machine operate x100
speed
mechanical advantage
formula for efficiency
pascal

30. A group of parts that work together to perform a function
work output
parallel gears
system
pulley

31. Within a machine are groups of parts that perform specific functions - such as braking or steering
formula for efficiency
respiratory system
mechanical advantage
subsystems

32. Consists of a small cylinder that has a crank or handle. The axle of the winch acts like the fulcrum - the handle is the effort arm
Hydraulic systems
winch
mass production
friction

33. Do not seal the gas (usually air)
efficiency
formula for work
fulcrum
Pneumatic systems

34. Mass of the object lifted by the lever
efficiency
work output
load
formula for pressure in hydraulics

35. The ratio of the output to the input of any system - a comparison of the useful work provided by a machine or a system with - the work supplied to the machine or system
circulatory system
reducing gears
internal combustion engine
efficiency

36. When the driving and the driven gears are the same size
bones
complex machines
parallel gears
Hydraulic systems

37. (driven gear) smaller gear
kinetic energy
pinion
gears
valve

38. The production of large quantities of a standardized article (often using assembly line techniques)
parallel gears
wheel and axle
Lever
mass production

39. Required a large shift in population from rural areas to the cities.
formula for pressure
The Industrial Revolution
mass production
effort arm

40. A large gear driving a smaller gear decreases torque and increases speed in the driven gear
load
multiplying gears
efficiency
lubricants

41. Distance between the fulcrum and the effort force
effort arm
load arm
joule
transmission

42. A pair of wheels that have teeth that interlink. When they rotate together - one gear wheel transfers turning motion and force to the other.
effort arm
gears
parallel gears
effort force

43. Do the work faster
reducing gears
speed ratio
speed advantage
potential energy

44. Pressure applied to an enclosed fluid is transmitted undiminished in all directions throughout the fluid and perpendicular to the walls of the container.

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45. Several simple machines all working together in a system
driving gear
complex machines
gravitational potential energy
internal combustion engine

46. Heated water to make steam and then used to move a piston. When the piston moved - it caused an attached rod (which was connected to a crankshaft) to move as well - making the engine work.
Lever
friction
steam engine
speed

47. Pneumatic system in your body
potential energy
respiratory system
valve
internal combustion engine

48. Do the work easier
steam turbine
effort advantage
formula for MA
effort arm

49. Use the force of a liquid in a confined space - apply two essential characteristic of fluids - their incompressibility and their ability to transmit pressure
valve
respiratory system
Hydraulic systems
efficiency

50. F/A
mechanical advantage
load arm
formula for pressure
fulcrum