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Everyday Physics

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. 100 -000 n/m^2
Heat capacity equation
Radiation
atmospheric pressure (atm)
Thermal conductivity

2. P(P2-P1)D^4/128Ln n=fluid's viscosity
Net force=0 net torque?0
Weight
Velocity=
Flow through a pipe

3. Z+n
Convert Celsius to Kelven
azX
Mechanics
Heat capacity equation

4. It increases
variation of pressure with depth
pressure does what when depth is increased
Frequency
mechanical wave

5. Distance traveled / time
Resistance
Velocity=
Torque
Net force?0 net torque=0

6. P x u x A
Distance traveled
Fluid force
Time for an object thrown to reach maximum height
mass flow rate formula

7. The study of heat and its transformation into mechanical energy
Fluid force
viscosity
Thermodynamics
Heat capacity (specific heat)

8. Voltage / current
The US uses how much of the total world energy consumption?
Convert Celsius to Kelven
Resistance
Centripedal acceleration=

9. Analized brahe's data and verified the heliocentric theory. These regularities are known as Helpers Laws of Planetary motion.
Equilibrium
Kepler
viscosity
Newton

10. Tube cross section area A - flow speed u vfr= u x A (m/s x m^2)
velocity through a medium
Heat capacity (specific heat)
volume fluid flow rate formula
Radiation

11. Heat is carried from place to place by the bulk movement of either liquids or gasses
Convection
Stable structures
Fluid force
wave

12. The first to do experimental studies of the laws of motion and was Imprisoned by Pope Urban VIII in 1633 for advocating the Copernican theory - also know as the heliocentric theory - that the earth was a planet revolving around the sun.
Mechanics
Galileo
Frequency
restoring force

13. The heat transfer by electromagnetic waves - thermal light waves
Heat
Radiation
when ice in water melts what happens?
Speed of light

14. 100 -000 n/m^2
Wavelength
atmospheric pressure (atm)
Power (watts)
Radiation

15. Gallons per minute (gpm) - liters/s - cubic feet per minute (cfm) or m^3/s
Wave speed=
Velocity required for an object to reach height h
mechanical wave
volume fluid flow rate

16. Fbottom=Ftop+mg where mg is the weight of the volume
1 BTU
static fluid formula
pressure depends on
ultrasound

17. V1 x A1=v2 x A2
Acceleration
restoring force
incoming and outgoing flow rate formula
First Law of thermodynamics

18. 1 / period (time)
Frequency
definition of Bernoulii's equation
Condition for stability
Period

19. You can't get more work out than the energy you put in
Conservation of energy
c=3x10^8 m/s
mechanical wave
Flow through a pipe

20. Velocity squared / radius
restoring force
Distance traveled
Centripedal acceleration=
definition of Bernoulii's equation

21. A disturbance that propagates through a medium
entropy
Acceleration
mechanical wave
Center of gravity (CG)

22. If the temperature of system A is less then the temperature of system B then heat flows from B to A (hot to cold)
when ice in water melts what happens?
continuity
Thermal radiation
Second law of thermodynamics

23. The level stays the same
Kepler
Pressure=
wavelength
when ice in water melts what happens?

24. How much torque it takes to get an object rotating
Projectile
order of states of matter stronger to lesser forces between atoms
Speed of light
Rotational inertia (moment of inertia)

25. The study of how objects behave (from the very tiny to the very big - and from the beginning of the Universe to its ultimate fate).
1 BTU
Physics
Projectile
Frequency

26. Z+n
Thermal conductivity
Emissive
volume fluid flow rate formula
azX

27. Equals total momentum after collision
Kepler
Total momentum before collision
Conservation of energy
Voltage

28. P x u x A
Stable structures
Rotational inertia (moment of inertia)
Energy of motion (kinetic energy)
mass flow rate formula

29. Maximum displacement from equilibrium
amplitude
frequency of light
law of conservation of energy
volume fluid flow rate formula

30. Mass x velocity
Velocity required for an object to reach height h
bernoulli's equation
Emissive
Momentum

31. The heat transfer by electromagnetic waves - thermal light waves
Radiation
Velocity required for an object to reach height h
mass flow rate formula
Projectile

32. Force per unit area
Total momentum before collision
Emissive
Pressure=
First Law of thermodynamics

33. Initial velocity= the square root of 2gh
Stable structures
pressure at depth h
Heat capacity equation
Velocity required for an object to reach height h

34. Heat is transferred directly through a material with no bulk movement of material
Conduction
Brahe
incoming and outgoing flow rate formula
wavelength

35. F=mass x acceleration

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36. 1 -000 kg/m^3
density of water
order of states of matter stronger to lesser forces between atoms
Convection
Torque

37. Initial velocity= the square root of 2gh
Net force?0 net torque=0
Velocity required for an object to reach height h
Resistance
Projectile

38. 5/9 [T(F)-32]
Convert Fahrenheit to Celsius
period p of a mass m oscillating on a horizontal spring of force constant k
restoring force
Center of gravity (CG)

39. The combination of force and point of application
Newton's Second Law
Torque
Projectile
Engine efficiency cannot be 100%

40. The total disorder of an object
Engine efficiency
Rotational inertia (moment of inertia)
entropy
density of air

41. If energy is transferred and the internal energy of system B decreases by some amount then the internal energy of system A must incrase by the same amount.
First Law of thermodynamics
1 BTU
period p of a mass m oscillating on a horizontal spring of force constant k
when ice in water melts what happens?

42. Fbottom-Ftop=mg=(density x vol) x g
variation of pressure with depth
Stable structures
Time for an object thrown to reach maximum height
Condition for stability

43. Decreases
the pressure of liquids _____ when it goes faster
Wave speed=
Velocity=
Condition for stability

44. 2p x square root L/g
period of a pendulum T of length L
Brahe
wavelength
pressure at depth h

45. Work done / heat in
First Law of thermodynamics
amplitude
Conservation of energy
Engine efficiency

46. Rod with forces applied at opposite ends in opposite directions
Flow through a pipe
Stable
Rotational inertia (moment of inertia)
Net force=0 net torque?0

47. Not easy to knock over
volume fluid flow rate formula
Stable
Conservation of energy
frequency of light

48. The study of how objects behave (from the very tiny to the very big - and from the beginning of the Universe to its ultimate fate).
Physics
continuity
Frequency
Projectile

49. Solids - liquids - gases
Heat capacity equation
frequency of light
order of states of matter stronger to lesser forces between atoms
First Law of thermodynamics

50. 1.25 kg/m^3
Velocity required for an object to reach height h
bernoulli's equation
density of air
mass flow rate formula