1. Bell Ringers with EQT Questions
Second Semester Physical Science
With Answers

2. Bell Ringer 1-7
A train travels 100 kilometers in 4 hours. Calculate its’ average speed.
A. 10 km/h
B. 20 km/h
C. 25 km/h
D. 50 km/h

3. Bell Ringer 2-7
If the distance an object has traveled in a certain amount of time is known, what can be calculated?
A. velocity
B. acceleration
C. force
D. speed

4. Bell Ringer 3-7
A car travels 300 kilometers in 3 hours. What can be determined?
A. velocity
B. speed
C. average speed
D. acceleration

5. Bell Ringer 4-7
A 300 N force acts on a 25 kg object. Calculate the acceleration of the object.
A. 100 m/s2
B. 60 m/s2
C. 30 m/s2
D. 12 m/s2

6. Bell Ringer 5-7
A 3000N force acts on a 200 Kg object. Calculate the acceleration of the object.
A. 20 m/s2
B. 15 m/s2
C. 30 m/s2
D. 12 m/s2

7. Bellringer 6-7
A student riding her bicycle on a straight, flat road covers one block every 7 seconds. Make a statement about her motion.
A. her velocity is increasing
B. her acceleration is increasing
C. Her speed and velocity are constant
D. her speed and velocity are increasing

8. Bellringer 7-7
Two forces act on an object. One force has a magnitude of 10 N and is directed toward the North. The other has a magnitude of 5 N directed toward the south. What is the net force experienced by the object?
A. 5 N south
B. 15 N south
C. 15 N north
D. 5 N North

9. Bellringer 8-7
A bird flies 150 m for 10 s , then 200 m for 10 s and then 100 m for 5 sec. What is the birds’ average speed?
A. 45 m/s
B. 18 m/s
C. 25 m/s
D. 200 m/s

10. Bellringer 9-7
John is in Chicago, IL. He decides to head south to Austin TX. In one hour he travels 80 km. What is his average velocity?
A km/hr
B. 80 km/hr
C. 40 km/hr
D. 80 km/hr south

11. Bellringer 10-7
Maria is on a bus traveling 15 m/s east and she decides to move from the front of the bus to the back. She begins walking to the rear of the bus at a rate of 1 m/s. What is her resultant velocity?
A. 16 m/s
B. 15 m/s
C. 14 m/s east
D. 0 m/s

12. Bellringer 11-7
A friend is helping Yen to rearrange her bedroom furniture. Yen exerts 25 N of force to push the foot-end of the bed while her friend exerts 20 N of force pulling the head-end of the bed. What net force is being used to move the bed?
A. 25N
B. 45 N forward
C. 5 N forward
D. 20 N forward

13. Bellringer 12-7
What is the resultant net force of a force of 7N north is combined with a force of 5N south?
A. 12 N
B. 12 N south
C. 12 N north
D. 2 N north

14. Bellringer 13-7
A man applies a force of 500 N to push a truck 10 m down the street. How much work has been done?
A. 500 J
B. 5000J
C. 50 J
D J

15. Bellringer 14-7
Carl rides his bike north for 100 m at a constant speed of 5 m/s. What is his acceleration?
A. 500 m/s
B. 20 m/s
C m/s
D. there is no acceleration

16. Bellringer 15-7
A 20.0 N force is used to push a cart a distance of 5.0 meters. How much work is done on the cart?
A. 4 J
B. 100 J
C. 50 J
D. 10 J

17. Bellringer 16-7
Two children with the same mass face one another while standing on their skateboards. If they place their hands palm to palm and skateboarder #1 pushes as hard as he can, what will be the result?
A. Both will move toward the east
B. Both will move toward the west
C. Both will roll
D. Neither will move

18. Bellringer 17-7
Given four objects massing 4 kg, 2 kg, 6000g, and 1500 g. Which object will have more inertia than a 5 kg object?
A. 6000g
B. 100 g
C. 2 Kg
D. 2000g

19. Bellringer 18-7
A ball is dropped from a rooftop. What is the balls’ velocity after 3 seconds. Assume there is no air resistance.
A. 9.8 m/s
B m/s
C. 294 m/s
D. 3m/s

20. Bellringer 19-7
An apple falls from a tree. The gravitational force on the apple is 1N. If air resistance is 0.1N, what is the net force on the apple?
A. 1N
B. 1.1 N
C. 0.9 N
D. 0 N

21. Bellringer 20-7
How much power does a person weighing 500 N need to climb a 3 M ladder in 5 sec?
A w
B. 500 w
C. 300 w
D. 30 w

22. Bellringer 21-7
Classify this device: a slanted surface used to raise an object.
A. screw
B. inclined plane
C. wedge
D. lever

23. Bellringer 22-7
Classify this device: an object that does work with only one movement and changes the size or direction of a force.
A. compound machine
B. lever
C. simple machine
D. pulley

24. Bellringer 23-7
Classify this device: a bar that is free to pivot about a fixed point.
A. screw
B. inclined plane
C. lever
D. pully

25. Bellringer 24-7
How should one classify an inclined plane wrapped around a cylindrical post?
A. screw
B. lever
C. inclined plane
D. pulley

26. Bellringer 25-7
Classify this device: two or more simple machines working together.
A. simple machine
B. compound machine
C. triple machine
D. poly machine

27. Bellringer 26-7
A man expends 100 J of work to move a box up an inclined plane. The amount of work produced is 70J. Calculate the efficiency of the inclined plane.
A. 100%
B. 70%
C. 50%
D. 25%

28. Bellringer 27-7
A boy pushes a lever 2 meters downward, and a box on the other end of the lever moves upward 2.5 meters. The boy uses 75 Newtons to raise the 50 Newton box. Calculate the efficiency of the lever.
A. 100%
B. 2.5%
C. 83.3%
D. 65%

29. Bellringer 28-7
Classify this device: an arrangement of pulleys designed to reduce the amount of effort force required.
A. wedge
B. block and tackle
C. harness
D. rings

30. Bellringer 29-7 A ramp is classified as what type of simple machine?
A. wedge
B. screw
C. inclined plane
D. pulley

31. Bellringer 30-8
What actions are most likely increase the kinetic energy of an object?
A. cut it in half
B. increase the mass and velocity
C. decrease the mass and velocity
D. all of the above

32. Bellringer 31-8
Joe is jumping on a trampoline. What is his energy level at the top of his jump?
A. maximum kinetic
B. maximum potential
C. minimum kinetic
D. minimum potential

33. Bellringer 32-8
Which of these vehicles has the most kinetic energy? A large truck traveling at 30 m/s , a small car traveling at 30 m/s, a minivan traveling at 45 m/s or a bicycle traveling
10 m/s?
a. a minivan traveling at 45 m/s
b. A large truck traveling at 30 m/s
c. A small car traveling at 30 m/s
d. A bicycle traveling at 10 m/s

34. Bellringer 33-8
Which of these vehicles has the LEAST kinetic energy? A large truck traveling 50 m/s, a small car traveling 30 m/s, a minivan traveling 45 m/s or a bicycle traveling 10 m/s?
A. a large truck traveling 50 m/s
B. a bicycle traveling 10 m/s
C. a minivan traveling 45 m/s
D. a small car traveling 30 m/s

35. Bellringer 34-8
What kind of energy would a stretched rubber band most closely model?
A. kinetic energy
B. potential energy
C. heat energy
D. nuclear energy

36. Bellringer 35-8
What happens in the amount and kind of energy when a pendulum swings in a downward direction?
A. potential goes to kinetic
B. kinetic becomes potential
C. no energy change
D. it stops

37. Bellringer 36-8
A cart traveling on a roller coaster has both potential and kinetic energy. Where will the cart have the greatest potential energy?
A. bottom of first hill
B. top of tallest hill
C. top of first hill
D. top of the last hill

38. Bellringer 37-8
The cart is traveling forward on a roller coaster. At what point will the cart have the greatest kinetic energy?
A. top of the tallest hill
B. bottom of the tallest hill
C. top of the middle hill
D. bottom of the last hill

39. Bellringer 38-8
Consider a man winding his pocket watch. Classify the energy he is storing in the watch spring.
A. potential energy
B. kinetic energy
C. elastic potential energy
D. elastic kinetic energy

40. Bellringer 39-8
Choose the best description of kinetic and potential energy.
A. Kinetic is energy of position and potential is movement
B. Kinetic is static and so is potential
C. Kinetic is energy of movement and potential is energy of position
D. none of these are descriptions of energy

41. Bellringer 40-8
If the speed of an object is changed, what effect will that have on the object’s potential energy?
A. It will increase
B. It will decrease
C. It will double
D. It will not be affected

42. Bellringer 41-8
A sample of water is at 1 degree C. Energy is removed from the sample. What type of change will occur with the water sample?
A. it will heat up
B. it will cool down
C. it will loose volume
D. it will not change

43. Bellringer 42-8
What happens to the particles of matter inside of a substance when that substance loses or absorbs energy?
A. the speed of the particles will not change
B. it shrinks
C. the speed of the particles always change
D. it gets hot

44. Bellringer 43-8
What type of process will a substance undergo if it absorbs energy?
A. exothermic
B. endothermic
C. it swells
D. is shrinks

45. Bellringer 44-8
A solid is at its melting point. The substance absorbs additional energy. What will happen to the substance?
A. the particles of the substance will increase motion in the solid
B. the particles of the substance will decrease motion in the solid
C. it will glow in the dark
D. Nothing will occur

46. Bellringer 45-8
Alex wants to change the state of matter in a sample he has on the lab table. What will Alex have to do to the sample to change its’ state?
A. cool it down
B. change its’ energy
C. heat it up
D. nothing will change the matters’ state

47. Bellringer 46-8
A liquid becomes a gas. What molecular changes must have occurred for this change to happen?
A. it heats up
B. it cools down.
C. it compresses
D. the molecules move further apart

48. Bellringer 47-8
To what is a high temperature in a substance most closely related?
A. high potential energy
B. high kinetic energy
C. low potential energy
D. low kinetic energy

49. Bellringer 48-8
Through which states of matter is convection of thermal energy most likely to occur?
A. liquids and gasses
B. liquids and solids
C. solids, liquids and gasses
D. only solids

50. Bellringer 49-8
If the coffee in a large cup is placed in the microwave oven for 2 minutes, what is most the likely cause for the increase in temperature of the coffee?
A. decrease in potential energy
B. increase in potential energy
C. increase in kinetic energy
D. decrease in kinetic energy

51. Bellringer 50-8
What property or characteristic of matter must be present for a wave to travel through that matter?
A. light
B. energy
C. liquid
D. gas

52. Bellringer 51-9
What property or characteristic must be present for a wave to be able to travel?
A. solid
B. Energy
C. Liquid
D. Gas

53. Bellringer 52-9
What type of a wave is created by squeezing together the coils of a spring and then releasing the coils?
A. transverse waves
B. compressional waves
C. longitudinal waves
D. Both B and C are correct

54. Bellringer 53-9
In what kind of wave do the particles of the waves’ medium move only in the same direction as the motion of the wave?
Compressional
Longitudinal
Transverse
Both A and B describe the wave

55. Bellringer 54-9
Wave A and Wave B have the same wavelength. Wave A carries more energy than Wave B. What characteristic of wave A is MOST likely responsible for its higher energy level?
A. frequency
B. strength
C. amplitude
D. loudness

56. Bellringer 55-9 What kind of waves are sound waves? Transverse
Compressional/longitudinal
Short and high energy
They are not waves

57. Bellringer 56-9
Electromagnetic waves can travel through many media. To what type of wave are they most closely related ?
A. longitudinal
B. transverse
C. sound
D. microwaves

58. Bellringer 57-9
Two electromagnetic waves have the same amplitude, but one carries more energy than the other. What characteristic of the waves is different from each other?
A. frequency
B. strength
C. length
D. height

59. Bellringer 58-9
What kind of force can transfer energy from one place to another?
A. wave
B. blast
C. laser beam
D. microwave

60. Bellringer 59-9
What type of wave moves the particles of the material through which it travels move at right angles to the motion of the wave?
A. longitudinal
B. transverse
C. compressional
D. microwave

61. Bellringer 60-9
What type of electromagnetic wave has the shortest wavelength?
A. radio wave
B. x-ray
C. gamma ray
D. microwave

62. Bellringer 61-9
Four types of waves have the same amplitude and pass through a substance. Which type of wave transfers the LEAST energy through the substance?
A. ultraviolet
B. light
C. microwave
D. sound wave

63. Bellringer 62-9
Four types of waves which have the same amplitude pass through a substance. Which type of wave transfers the MOST energy to the substance?
A. ultraviolet
B. light
C. microwave
D. sound

64. Bellringer 63-9 COS 10-1
How do the speed of light and the speed of sound compare to each other?
A. the speed of sound is faster
B. the speed of light is faster
C. the speed of sound is slower
D. the speed of sound is faster

65. Bellringer 64-9 COS 10-2
Which kind of instrument would have the following characteristics: a current carrying coil of wire wrapped around an iron core?
A. a battery
B. a radio receiver
C. an electromagnet
D. a night light

66. Bellringer COS 10-3
Which situation describes what happens when a wire is passed through a magnetic field?
A. an electric current is formed
B. it sparks
C. it plays music
D. nothing

67. Bellringer COS 10-4
What is the name of the process involved in making a current flow when the electric current is produced from the motion of a conductor in a magnetic field?
A. induction
B. transduction
C. rotational energy
D. conduction

68. Bellringer 67-10
What observation or rule can you use to describe what happens to magnetic poles with different charges?
A. opposites attract, opposite charges attract
B. opposites are repulsive
C. likes attract, like charges attract
D. likes are repulsive

69. Bellringer 68 COS 6-1
What does the size of the gravitational force between two objects depend upon ?
A. mass of the object
B. distance between them
C. both the mass and distance
D. none of these

70. Bellringer 69 COS 6-2
What happens to your weight as you get farther from the center of the earth?
A. it decreases
B. it increases
C. it stays the same
D. it doubles

71. Bellringer 70 COS 6-3
What happens to the gravitational force between two objects if the mass of one of the objects is increased?
A. it decreases
B. it stays the same
C. it increases
D. it doubles

72. Bellringer 71 COS 6-4
What happens to the gravitational force between two objects if the distance between them is decreased?
A. it increases
B. it decreases
C. it stays the same
D. it doubles

73. Bellringer 72 COS 6-5
What happens to the gravitational force between two objects if the distance between them is increased?
A. it increases
B. it decreases
C. it stays the same
D. it doubles

74. Bellringer 73 COS 6-6
What types of objects experience gravitational forces?
A. only solid matter
B. all matter
C. only solids and liquids
D. only non radioactive matter

75. Bellringer 74 COS 6-7
What types of objects on earth experience the greatest gravitational force between them?
A. those far away from each other
B. those attached to the magnetic poles
C. those closest together
D. they all fly away

76. Bellringer 75 COS 6-8
Which objects experience the least gravitational force between them on the earth?
A. those which are closest together
B. Those who are attached at the magnetic poles
C. those which are farthest apart
D. they all fly away

77. Bellringer 76 COS 6-9
Protons are positively charged particles. Since like charges repel each other, what force prevents the protons in a nucleus of an atom from repelling each other and scattering?
A. strong nuclear force
B. weak nuclear force
C. the electrons won’t let them out
D. the neutrons are attached to them in the nucleus

78. Bellringer 77 COS 6-10
Which of the following particles would repel one another?
A. Protons and protons
B. Protons and neutrons
C. Protons and electrons
D. electrons and neutrons

79. Bellringer 78 COS 6-11
Which of the following particles would attract one another?
A. protons and protons
B. protons and electrons
C. protons and neutrons
D. electrons and neutrons

80. Bellringer 79 COS 6-12
What type of force is involved in the process of nuclear decay?
A. strong nuclear forces
B. weak nuclear forces
C. the electrons won’t let them out
D. the neutrons

81. Bellringer 80 COS 11-1
What is the name given to two atoms of the same element that have different numbers of neutrons, but same number of protons and electrons?
A. brothers
B. isotopes
C. isomer
D. radioactive

82. Bellringer 81 COS 11-2
Which radioactive particle or emission can be stopped by a common piece of paper or even a piece of card stock?
A. alpha particle
B. beta particle
C. gamma ray
D. x ray

83. Bellringer 82 COS 11-3
Which type of radioactive particles is considered the least penetrating ?
A. alpha particle
B. beta particle
C. gamma ray
D. x ray

84. Bellringer 83 COS 11-4
Which type of radiation is considered the most penetrating and the most dangerous?
A. alpha particles
B. beta particles
C. gamma rays
D. x rays

85. Bellringer 84 COS 11-5
What event occurs when the strong nuclear force is not sufficient to hold unstable nuclei together?
A. the nuclei fuse together
B. the nuclei decay
C. the nuclei find other types of radiation
D. the nuclei burn up

86. Bellringer 85 COS11-6
Identify the following nuclear process: The nuclei having low masses are united to form nuclei with larger masses ( often occurs on the sun)
A. fission
B. fusion
C. decay
D. formation of antimatter

87. Bellringer 86 COS 11- 7
Which of the following is correct for arrangement of the types of nuclear radiation in increasing order of penetrating power?
A. alpha, gamma, delta
B. alpha, delta, beta
C. alpha, beta, gamma
D. delta, omega, gamma

88. Bellringer 87 COS 11-8
Which of the following situations describes both a fusion reaction and a fission reaction?
A. they make bigger particles
B. they make smaller particles
C. they use up energy
D. they give off energy

89. Bellringer 88 COS 11-9
Which of the radioactive particles has neither charge or mass?
A. alpha particles
B. beta particles
C. gamma rays
D. x rays

90. Bellringer 89 COS 11-10
Which of the radioactive particles is best described by: a negatively charged particle that is emitted at a high speed from a nucleus?
A. alpha particles
B. beta particles
C. gamma rays.
D. x rays

91. Bellringer 90 COS 11-11
Which of the following statements about nuclear fusion is considered true?
A. fusion is the joining of the nuclei of atoms
B. fusion is the splitting of the nuclei of atoms
C. fusion is the stripping of the electrons from an atom
D. fusion is not helpful or harmful

92. Bellringer 91 COS 11-12
Classify the following process in which large nuclei are split into smaller pieces.
A. nuclear fusion
B. nuclear fission
C. building synthetic elements in the lab
D. nuclear chopping

93. Bellringer 92 COS 10-5
What can be done to increase the magnetic field of an electromagnet?
A. increase the loops of wire
B. increase the current
C. increase both the loops of wire and the current
D. shorten the column

94. Bellringer 93 COS 10-6
What is the difference between static electricity discharge and an electric current?
A. static discharge can not be felt
B. electric current is permanent
C. static discharge lasts for only seconds
D. electric current lasts for only seconds

95. Bellringer 94 COS 10-7
How is a permanent magnet different from an electromagnent?
A. a permanent magnet can not be turned off
B. an electromagnet can not be turned off
C. a permanent magnent can be turned off
D. an electromagnent is permanent

96. Bellringer 95 COS 10-8
If a wire is in an electromagnetic field, what will the wire have to be doing to create a current?
A. standing still
B. moving through the field
C. making circles
D. dancing

97. Bellringer 96 COS 10-9
How and when does an electromagnet produce an electromagnetic field?
A. it is always on
B. only when a current is applied to it
C. it doesn’t
D. when it does the loop to loop

98. Bellringer 97 COS 10-10
Four electromagnets have the same electric current passing through them. One with 50 loops, one with 200 loops, one with 750 loops and one with 1000 loops. Which magnet will produce the strongest magnetic field?
A. 50 loops
B. 200 loops
C. 750 loops
D loops

99. Bellringer 98 COS 10-11
What is a complete path through which electric charges can flow?
A. a conductor
B. a resistor
C. an electric circuit
D. a breaker

100. Bellringer 99 COS 10-12
Which of the following materials will make a good insulator?
A. iron
B. silver
C. rubber
D. plastic

101. Bellringer 100 COS 10-14
Which of the following objects would be considered a good conductor of electricity?
A. rubber
B. wood
C. plastic
D. iron

102. Bellringer 101 COS 10-15
Which of the following objects will have the least resistance: a 5 cm diameter wire, a 15 cm diameter wire, a 20 cm diameter wire or a 25 cm diameter wire?
A. 5cm wire
B. 15 cm wire
C. 20 cm wire
D. 25 cm wire

103. Bellringer 102 COS 10-16
Which of the following objects has the least resistance: a 5 cm long wire, a 15 cm long wire, a 20 cm long wire or a 25 cm long wire?
A. 5 cm long wire
B. 15 cm long wire
C. 20 cm long wire
D. 25 cm long wire

104. Bellringer 103 COS 10-17
Which of the following wires has the lowest resistance: a short thick copper wire, a long thin copper wire, a long thick copper wire, a short thin copper wire ?
A. a short thick copper wire
B. a long thin copper wire
C. a long thick copper wire
D. a short thin copper wire

105. Bellringer 104 COS 10-18
Which of the following is a conductor of electricity: air, glass, water, or wood?
A. air
B. glass
C. water
D. wood

106. Bellringer 105 COS 10-19
A flashlight bulb has a potential difference of 4.5 V and a resistance of 8.0 ohms. Calculate the current flowing through the filament.
A A
B A
C A
D A

107. Bellringer 106 COS 10-20
How much current flows through a 2.0 ohm wire with a voltage of 12.0 V ?
A. 3.0 A
B. 6.0 A
C A
D A

108. Bellringer 107 COS 10-21
A light bulb has a resistance of 240 ohms when operating at 120 V. Calculate the current flowing through the light bulb.
A. 2 A
B. 0.5 A
C. 5 A
D. 2.5 A

109. Bellringer 108 COS 10-22
Two resistors with values of 4.0 ohms and 6.0 ohms are connected in parallel. Calculate their equivalent total resistance.
A. less than 4.0 ohms
B. less than 6.0 ohms
C. less than 10 ohms
D. 2 ohms

110. Bellringer 109 COS 10-23 Two resistors with values of 6.0 ohms and
6.0 ohms are connected in parallel. Calculate their equivalent total resistance.
Less than 0 ohms
Less than 6.0 ohms
Less than 12.0 ohms
Less than 3 ohms

111. Bellringer 110 COS 10-24
Three resistors with values of 4.0 ohms, 6.0 ohms, and 8.0 ohms respectively are connected in series. Calculate their equivalent total resistance.
A. 10 ohms
B. 18 ohms
C. 2 ohms
D. 100 ohms

112. Bellringer 111 COS 10-25
What is the SI unit for resistance in electric circuits?
A. ampers
B. ohms
C. watts
D. newtons

113. Bellringer 112 COS 10-26
A bulb has a voltage of 9.0 volts and a current of 0.3 amps passing through it. Using Ohms’ Law, calculate the resistance of the bulbs’ filament.
A. 30 ohms
B. 27 ohms
C. 9 ohms
D. 3 ohms

114. Bellringer 113 COS 10-27
Examining two wires which have the same length but have different diameters, which of the wires would have the greatest resistance.
A. the skinny one
B. the fat one
C. the long one
D. the one with the smallest diameter

115. Bellringer 114 COS 10-28
Resistance in an electrical wire can cause some of the electrical energy in a wire to be converted to what energy form?
A. potential
B. thermal
C. kinetic.
D. resistance