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Test your basic knowledge |
Everyday Physics
Start Test
Study First
Subjects
:
science
,
literacy
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. Compiled the first detailed observational data on planetary motion (mars) - without a telescope.
Thermal radiation
period of a pendulum T of length L
Brahe
Conservation of energy
2. Speed of light / wavelength
Voltage
Buoyant force
frequency of light
bernoulli's equation
3. Net force=0 net torque=0
Equilibrium
continuity
Photon energy
velocity through a medium
4. C/n
Resistance
velocity through a medium
Convert Celsius to Fahrenheit
Acceleration
5. The force that brings a system back to equilibrium
Heat capacity equation
period of a pendulum T of length L
restoring force
Resistance
6. Because nothing stops it
Convert Fahrenheit to Celsius
density of air
Why does something move?
Total momentum before collision
7. The combination of force and point of application
Net force=0 net torque?0
Torque
Center of gravity (CG)
volume fluid flow rate
8. Current x resistance
Voltage
Einstein
infrasound
Thermal radiation
9. The effectiveness of a material in conducting heat
Convert Celsius to Fahrenheit
Rotational inertia (moment of inertia)
Thermal conductivity
Pressure=
10. Why things move
Mechanics
Heat
Wavelength
Stable
11. Compiled the first detailed observational data on planetary motion (mars) - without a telescope.
density of air
Brahe
pressure at depth h
Einstein
12. 5/9 [T(F)-32]
pressure does what when depth is increased
Convert Fahrenheit to Celsius
measurement of pressure
Why does something move?
13. Initial velocity = acceleration x time
pressure does what when depth is increased
Present velocity
Time for an object thrown to reach maximum height
volume fluid flow rate formula
14. Rod with forces applied at opposite ends in opposite directions
pressure does what when depth is increased
measurement of pressure
Net force=0 net torque?0
Total momentum before collision
15. 1 -000 kg/m^3
Radiation
period p of a mass m oscillating on a horizontal spring of force constant k
Acceleration due to gravity on the earth
density of water
16. V x A= constant
restoring force
continuity
incoming and outgoing flow rate formula
volume fluid flow rate
17. Work done / heat in
variation of pressure with depth
density of aluminum
Quantum mechanics
Engine efficiency
18. Are wider at the base (which lowers their center of gravity)
Wave speed=
pressure at depth h
Stable structures
continuity
19. Length of a wave
definition of Bernoulii's equation
wavelength
Conduction
Condition for stability
20. Voltage / current
infrasound
Resistance
Engine efficiency cannot be 100%
Heat
21. Voltage / current
period p of a mass m oscillating on a horizontal spring of force constant k
azX
Resistance
volume fluid flow rate formula
22. Not easy to knock over
Stable
Mechanics
incoming and outgoing flow rate formula
Speed of light
23. Hf
Engine efficiency
Einstein
Engine efficiency cannot be 100%
Photon energy
24. Tube cross section area A - flow speed u vfr= u x A (m/s x m^2)
volume fluid flow rate formula
Distance traveled
Thermal conductivity
Voltage
25. You cant get as much out as you put in
Convert Celsius to Kelven
velocity through a medium
Projectile
Engine efficiency cannot be 100%
26. Analized brahe's data and verified the heliocentric theory. These regularities are known as Helpers Laws of Planetary motion.
Conservation of energy
order of states of matter stronger to lesser forces between atoms
Kepler
Internal energy
27. The total force (positive and negative) acting upon an object
Kepler
Net force
Conduction
Quantum mechanics
28. Kg/m^3
Emissive
Thermal conductivity
measure of density
period of a pendulum T of length L
29. Because nothing stops it
Frequency
Why does something move?
Engine efficiency cannot be 100%
Galileo
30. Heat is carried from place to place by the bulk movement of either liquids or gasses
Projectile
Aristotle
Power (watts)
Convection
31. The heat needed to raise the temperature of 1 pound of water by 1 degree F
wave
Convert Celsius to Kelven
Net force?0 net torque=0
1 BTU
32. P(P2-P1)D^4/128Ln n=fluid's viscosity
Acceleration
Flow through a pipe
infrasound
Wavelength
33. ?
Mechanics
Heat
c=3x10^8 m/s
mass flow rate formula
34. F=mass x acceleration
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35. The change in internal energy= the heat absorbed- the work done
law of conservation of energy
restoring force
Radiation
Emissive
36. Time= the square root of 2 x height / acceleration due to gravity
static fluid formula
Newton
volume fluid flow rate
Time for an object thrown to reach maximum height
37. The level stays the same
variation of pressure with depth
Energy of motion (kinetic energy)
when ice in water melts what happens?
Thermal conductivity
38. Mass x specific heat x temperature change
Heat
Torque
volume fluid flow rate
Net force?0 net torque=0
39. 100 -000 n/m^2
atmospheric pressure (atm)
Momentum
Kepler
Torque
40. 11 -000 kg/m^3
Frequency
Kepler
density of lead
Torque
41. Pressure x area
Fluid force
Engine efficiency
Speed of light
Conduction
42. Believed that the natural state of objects was to be at rest
First Law of thermodynamics
c=3x10^8 m/s
Physics
Aristotle
43. Velocity squared / radius
density of lead
Thermal conductivity
Centripedal acceleration=
entropy
44. Hf
Photon energy
Wavelength
Resistance
Weight
45. 2 -700 kg/m^3
Convert Celsius to Fahrenheit
density of aluminum
Fluid force
infrasound
46. Decreases
the pressure of liquids _____ when it goes faster
Acceleration
Buoyant force
Change in internal energy
47. Decreases
the pressure of liquids _____ when it goes faster
Newton's Second Law
Convert Celsius to Fahrenheit
Time for an object thrown to reach maximum height
48. 100 -000 n/m^2
atmospheric pressure (atm)
Centripedal acceleration=
Heat capacity equation
Thermal radiation
49. Time required to complete one cycle
pressure depends on
Heat capacity equation
Period
variation of pressure with depth
50. The combination of force and point of application
Distance traveled
Torque
The US uses how much of the total world energy consumption?
Center of gravity (CG)
