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Everyday Physics

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Answer 50 questions in 15 minutes.
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Match each statement with the correct term.
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1. 100 -000 n/m^2
period p of a mass m oscillating on a horizontal spring of force constant k
atmospheric pressure (atm)
Photon energy
Thermal radiation

2. T=2p square root m/k frequency= square root k/m;/2p
period p of a mass m oscillating on a horizontal spring of force constant k
measurement of pressure
Thermodynamics
Conservation of energy

3. A tendency for liquids to resist flowing.
Equilibrium
viscosity
amplitude
pressure does what when depth is increased

4. Sounds below 30 Hz
Total momentum before collision
wavelength
Einstein
infrasound

5. You can't get more work out than the energy you put in
Net force
Conservation of energy
Acceleration
Momentum

6. P x u x A
mass flow rate formula
Voltage
Centripedal acceleration=
density of aluminum

7. Initial velocity= the square root of 2gh
continuity
Velocity required for an object to reach height h
Internal energy
Quantum mechanics

8. 1.25 kg/m^3
density of air
Heat capacity equation
Convert Celsius to Fahrenheit
infrasound

9. 1 / period (time)
Frequency
static fluid formula
wave
Quantum mechanics

10. 100 -000 n/m^2
Torque
atmospheric pressure (atm)
Voltage
wavelength

11. F=mass x acceleration

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12. 25%
mechanical wave
Net force
The US uses how much of the total world energy consumption?
density of water

13. Gallons per minute (gpm) - liters/s - cubic feet per minute (cfm) or m^3/s
Time for an object thrown to reach maximum height
volume fluid flow rate formula
continuity
volume fluid flow rate

14. Z+n
azX
1 BTU
Present velocity
Change in internal energy

15. Are wider at the base (which lowers their center of gravity)
Quantum mechanics
Radiation
Equilibrium
Stable structures

16. 1 / period (time)
period of a pendulum T of length L
Frequency
Buoyant force
Radiation

17. You can't get more work out than the energy you put in
Conservation of energy
Heat capacity equation
Engine efficiency
pressure depends on

18. As the speed of a moving fluid increases - the pressure within the fluid decreases

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19. Rod with forces applied at opposite ends in the same direction
the pressure of liquids _____ when it goes faster
Net force?0 net torque=0
incoming and outgoing flow rate formula
Heat capacity (specific heat)

20. Rod with forces applied at opposite ends in opposite directions
Center of gravity (CG)
Net force=0 net torque?0
Torque
Conduction

21. Sounds above 20 -000 Hz
ultrasound
viscosity
Total momentum before collision
Buoyant force

22. Weight of displaced water=volume of displaced water in liters x 10 n / liter
Radiation
Buoyant force
Time for an object thrown to reach maximum height
Wave speed=

23. Rod with forces applied at opposite ends in opposite directions
Resistance
Stable
Net force=0 net torque?0
Mechanics

24. Weight of displaced water=volume of displaced water in liters x 10 n / liter
Buoyant force
Present velocity
c=3x10^8 m/s
1 BTU

25. The combination of force and point of application
infrasound
Mechanics
Torque
Mechanics

26. Solids - liquids - gases
order of states of matter stronger to lesser forces between atoms
viscosity
Convert Fahrenheit to Celsius
law of conservation of energy

27. 18600 miles/sec
Speed of light
order of states of matter stronger to lesser forces between atoms
Pressure=
Conservation of energy

28. 1.25 kg/m^3
Condition for stability
density of air
frequency of light
pressure does what when depth is increased

29.
wavelength
static fluid formula
Convert Celsius to Kelven
Energy of motion (kinetic energy)

30. Fbottom-Ftop=mg=(density x vol) x g
period of a pendulum T of length L
variation of pressure with depth
Frequency
Total momentum before collision

31. 10 m/s^2
Internal energy
mass flow rate formula
Engine efficiency cannot be 100%
Acceleration due to gravity on the earth

32. Wrote Principia in 1687. Made the 3 laws of mechanics and law of gravity. He also invented calculus.
Kepler
Stable
Newton
Convert Fahrenheit to Celsius

33. The amount of heat that is required to raise the temperature of one g of a substance by 1 degree C.
Heat capacity (specific heat)
Weight
1 BTU
Condition for stability

34. Heat is carried from place to place by the bulk movement of either liquids or gasses
Present velocity
1 BTU
Convection
Projectile

35. Fbottom-Ftop=mg=(density x vol) x g
Convert Celsius to Fahrenheit
Speed of light
variation of pressure with depth
Change in internal energy

36. Mass x specific heat x temperature change
atmospheric pressure (atm)
Heat
Momentum
Acceleration due to gravity on the earth

37. Net force=0 net torque=0
Equilibrium
Velocity required for an object to reach height h
Torque
density of air

38. Because nothing stops it
Why does something move?
Stable
Photon energy
Photon energy

39. Pascal (Pa) or pounds per square inch (psi)
Condition for stability
Aristotle
measurement of pressure
Distance traveled

40. Initial velocity = acceleration x time
pressure does what when depth is increased
Kepler
Present velocity
Convert Celsius to Kelven

41. Equals total momentum after collision
Net force
Engine efficiency cannot be 100%
Total momentum before collision
volume fluid flow rate formula

42. Sounds below 30 Hz
Time for an object thrown to reach maximum height
density of lead
pressure at depth h
infrasound

43. V x A= constant
density of lead
Galileo
continuity
Projectile

44. The change in internal energy= the heat absorbed- the work done
Acceleration
density of lead
Thermal radiation
law of conservation of energy

45. Maximum displacement from equilibrium
wavelength
amplitude
Centripedal acceleration=
Momentum

46. The energy that flows from one system to another because of their temperature difference.
Time for an object thrown to reach maximum height
infrasound
Heat
when ice in water melts what happens?

47. Time= the square root of 2 x height / acceleration due to gravity
period p of a mass m oscillating on a horizontal spring of force constant k
Equilibrium
frequency of light
Time for an object thrown to reach maximum height

48.
Torque
atmospheric pressure (atm)
Photon energy
Distance traveled

49. New theory that explained behavior at the atomic level
period of a pendulum T of length L
period p of a mass m oscillating on a horizontal spring of force constant k
Quantum mechanics
volume fluid flow rate

50. T(C) +273
Convert Celsius to Kelven
Quantum mechanics
Heat
Time for an object thrown to reach maximum height

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Everyday Physics

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