PASCO Specialty & Mfg. SE-8658A User's Manual
Contents
1. 23 4 back cover PASC Cl erentifs Permanent Magnet Motor 012 07210 Copyright Warranty Equipment Return Please Feel free to duplicate this manual subject to the copyright restrictions below Copyright Notice The PASCO scientific Permanent Magnet Motor manual 012 07210A is copyrighted and all rights reserved However permission is granted to non profit educational institutions for reproduction of any part of the manual providing the reproductions are used only for their laboratories and are not sold for profit Reproduction under any other circumstances without the written consent of copyright holders is prohibited Limited Warranty PASCO scientific warrants the product to be free from defects in materials and workmanship for a period of one year from the date of shipment to the customer PASCO will repair or replace at its option any part of the product which is deemed to be defective in material or workmanship The warranty does not cover damage to the product caused by abuse or improper use Determination of whether a product failure is the result of a manufacturing defect or improper use by the customer shall be made solely by PASCO scientific Responsibility for the return of equipment for warranty repair belongs to the customer Equipment must be properly packed to prevent damage and shipped postage or freight prepaid Damage c2. Draw arrows indicating the direction of current flow direction of wire AN Indicate whether north N or south S wrapping on the coil When you wrap your fingers in the direction of the current flow in a coil your thumb f points towards the north pole of the 4 magnetic field 4 7 y N y N wire connected to the terminal of the power _ supply Figure 1 4 Determining the Direction of the Magnetic Field of the Coil Using the Right Hand Rule gt Note Here s why the direction of conventional current is opposite to that of the direction of electron flow In the mid eighteenth century Benjamin Franklin suggested the terms positive and negative and conjectured that electrical current was the movement of positive fluid from positive to negative regions Although he understood that it was equally possible that a negative fluid moves from negative to positive there was no way to resolve the issue for more than a century By convention scientists agreed to describe the direction of current as being from positive to negative Not until 1879 did Edwin H Hall show that in metals the current was a negative fluid It remained for J J Thompson R A Millikan and others to demonstrate the existence of electrons which are the charge carriers of this fluid This might seem an argument for changing the convention But current doesn t always travel in metals
3. Includes Teachersnots Instruction Manual and oe z 8 99 Experiment Guide for the CY PASCO scientific F Model SE 8658A PERMANENT MAGNET 1999 PASCO scientific B J f ey 1G rd 10101 Foothills Blvd Box 619011 Roseville CA 95678 9011 USA screntific Phone 916 786 3800 FAX 916 786 8905 email techsupp PASCO com The exclamation point within an equilateral triangle is intended to alert the user of important operating and safety instructions that will help prevent damage to the equipment or injury to the user 012 07210 Permanent Magnet Motor Table of Contents SLE nI i PAERATA Page Copyright and Warranty Equipment Return ii Introdu HON senele Ads ached api TO 1 EE EE EE 1 Table 1 Equipment Options for Experiments 1 3 2 ner eee ee merece ere erent 3 Assembly Pennanent Magnet Motor 4 Suggested USES paced 5 Experiment 1 Operation of the 7 Experiment 2 Operation of AC and DC Generators ccccccssicccseesseceseceseeees 13 Experiment 3 Operation of AC Synchronous Motor 19 Teachers Gude
4. The PASCO SE 8658A Permanent Magnet Motor operates on AC or DC current and it can be used to generate alternating or direct current Students can not only explore properties of AC and DC generators with this apparatus they can also discover key concepts and relationships concerning motors and electric current using the Permanent Magnet Motor in conjunction with an AC or DC power supply and sensors for voltage current and rotational speed The Permanent Magnet Motor includes armature with split ring commutator at one end and a dual slip ring commutator at the other field magnet shaft and brush assembly maintenance items manual ceramic magnet retaining nut ceramic magnet dual slip ring commutator split ring commutator brushes shaft and field magnet assembly Safety precautions Always wear safety goggles when in a room where the Permanent Magnet Motor is being used Keep fingers and other objects away from the spinning armature Choose power sources that limit current to not more than one ampere 1 0 A The motor may overheat if this current is exceeded or if power is applied continuously especially if the armature is not rotating The motor is intended only for intermittent operation Disconnect any power source whenever the motor is to be left unattended Permanent Magnet Motor 012 07210A gt NOTE Although the instruction
5. a What happens to the motor s rotational speed when you raise the voltage b Does the motor s rotational speed depend on the voltage of the DC current 12 PASC Ce 012 07210 Permanent Magnet Motor Experiment 2 Operation of AC and DC Generators EQUIPMENT NEEDED OPTIONAL EQUIPMENT Permanent Magnet Motor Voltage Sensor multimeter galvanometer computer interface e patch cords small strips of masking tape Purpose The purpose of this experiment is to detail the operation of an AC generator and a DC generator in terms of basic concepts of electromagnetism Theory Motors and generators may be regarded as devices that convert energy from one form to another e g transducers A motor converts electrical energy into mechanical energy Many designs of motors work as generators as well when mechanical energy is input by spinning the shaft electrical energy is produced More than one line of reasoning may be used to predict the magnitude and direction of the electrical current that is produced At the most fundamental level electrical charges moving across a magnetic field experience a force that is at right angles to both the direction of motion and the direction of the magnetic field according to the vector equation F qv x B Conductors of course contain charges and moving a conductor sideways across a magnetic field exerts a force on the charges that make the charges fl
6. Assembly of the Permanent Magnet Motor Permanent Magnet Motor 012 07210A Grip the brass posts of the brush holder with large alligator clips or e Attach small alligator clips to the ends of the brass strips that serve as brushes Adjust the power source to deliver 6 volts of DC current limited to 1 0 amp Have your teacher show you how if you don t know Do not turn the power on Procedure Part A wire connected to terminal of power supply 1 Rotate the armature and observe how the Figure 1 2 segments of the split ring commutator contact Experimental Setup the brushes as the armature turns Remove the armature from the shaft by grasping it between your thumb and forefinger and rotating it back and forth while lifting gently If necessary insert a pencil between the brushes to gently separate them to remove the armature Examine the armature closely and imagine current entering one of the split rings from a brush Trace the path of the current through the wire to the coil through the coil through the wire to the coil on the opposite side of the armature through that coil and through the wire to the other split ring and into the second brush By carefully examining the part of the coils where the wire emerges from the coil you can determine the direction in which the wire is wound on the coil Figure 1 3 Holding the armature in one hand imagine that the brush from the lead is touching one of
7. In ionized gasses current consists of electrons traveling in one direction with positive ions moving simultaneously in the opposite direction In solutions current consists of oppositely charged ions traveling in opposing directions And in certain semiconductors positive holes are the charge carriers Considering this complexity scientists have found it most useful to continue the convention begun by Franklin the direction of current is from positive to negative Permanent Magnet Motor 012 07210A 7 Turn the armature over 180 and imagine that the brush attached to the lead is contacting the other split ring of the commutator Note the path of the wire from where it is attached to the split ring to where it enters and exits from the coil on the right side of the armature Imagine a current running through the wire and use the right hand rule to determine the direction the magnetic field would flow Is the north pole on the same end of the coil as it was in step 5 8 Follow the wire over to the left coil Use the right hand rule to find the direction of the north pole a In this situation is the direction of the north pole the same for the right and left coils b True or False When the electric current is on the two coils become electromagnets with magnetic fields oriented in the same direction which turns the armature into a single electromagnet with its force oriented towards that same direction T
8. in the coils so that the poles of the coils are suddenly repelled by the nearby field magnets Thus another half turn occurs and this process occurs again and again A better explanation involves an understanding of fields The field magnets produce a magnetic field that passes through the gap between the pole pieces When current passes through the turns of the armature in the presence of the field forces act to cause a torque that rotates the armature Inertia carries the armature past the position of no torque to the point where the torque would force the armature back in the other direction However at that point the commutator reverses the direction of current in the armature so the torque continues to act in the original direction 1 Gently lower the armature onto the shaft with the split ring commutator down Figure 1 1 Carefully rotate the armature back and forth to separate the brushes and allow the commutator to slip down between them If necessary insert a pencil or similar object down between the brushes Use only the most delicate force to avoid bending the brushes and necessitating adjustments or repairs 2 Connect the motor to the power source by one of these methods Figure 1 2 e Insert banana plugs into the openings in the ends of the plastic brush older or 17 570 7 retaining nut l dual slip ring vA commutator split ring commutator armature field magnets brushes Figure 1 1
9. stream from the positive to the negative terminals of the power supply The armature vibrates or pulses This happens because the alternating current causes the polarity of the armature to reverse with each AC cycle It vibrates or pulses at the same frequency but with less force This happens because the rate at which the polarity reverses is the same but the force of the in duced magnetic flux of the armature decreases with decreasing voltage The rate of vibration is lessened and the strength of the pulsation is increased The halving of the cycle rate of the AC results in halving the rate of reversal of polarity in the armature while the increase in voltage results in the increase in strength of the pulsations 9 The rotational speed of the armature does not change when you change the voltage 10 The speed varies directly with the AC frequency 28 Technical Support Feedback If you have any comments about the product or manual please let us know If you have any sugges tions on alternate experiments or find a problem in the manual please tell us PASCO appreciates any customer feedback Your input helps us evaluate and improve our product To Reach PASCO For technical support call us at 1 800 772 8700 toll free within the U S or 916 786 3800 fax 916 786 3292 e mail techsupp PASCO com web WWw pasco comMm Contacting Technical Support Before you call the PASCO Technical Suppo
10. turned on hold the ceramic magnet near the ends of the armature If both poles of the ceramic magnet attract the armature the pole with the stronger attraction will be the opposite pole If the motor does not start in either direction turn off the power and ask your teacher for help a Does the result of this test agree with your predictions in steps 5 and 6 b Label each end of the armature in Figure 1 2 according to whether it is the north or south pole of the electromagnet c Determine the polarity of the Permanent Magnet Motor in the same way Label its poles N and S in Figure 1 4 3 Predict the direction the armature will rotate when you release it from the position of Figure 1 4 Will the motor rotate clockwise or counterclockwise If the motor does not start up immediately try turning it by hand in the predicted direction If that fails try turning it in the opposite direction 4 Turn off the power and reverse the positive and negative leads to the motor Before turning the power on predict the direction of rotation a Will the motor rotate clockwise or counterclockwise Turn the power back on and immediately try spinning the motor to start it If it doesn t start try spinning it in the other direction b Explain why the armature turns when you turn on the power Eo C C Permanent Magnet Motor 012 07210A 5 While the motor is running raise the voltage to approximately 8 volts
11. 3 2 of the terminal marked positive of the power supply and Direction of the Wire Winding enters the terminal marked negative Use the right hand on the Coil rule to determine the direction the magnetic field will flow at that instant Grasp the coil with your fingers wrapped around the coil in the direction of the current Current direction is described by convention as pointing from positive to negative Note that this is opposite to the direction of electron movement Your thumb will point in the direction of the field that is toward the north pole of the coil Put a small piece of tape on the end of the coil that would be its north pole at that instant Follow the wire over to the right coil Use the right hand rule to find the direction of the north pole a In this situation is the direction of the north pole the same for the right and left coils b In that case can you say that the north pole of either of the coils is in the same direction as the north pole of the armature Explain why c True or False In this AC motor we can determine the direction of the magnetic field of the armature at any instant by determining the direction of the north pole of either of the two coils Imagine that the AC current is in the negative half of the waveform This means that conventional current comes out of the negative black terminal of the power supply and enters the positive red terminal Repeat step 5 to determine which end of the ar
12. ASCO CI 6502A Power Amplifier with a 1 6500 Interface System the distorted waveform light will turn on during operation of the motor but no damage is being done to the Power Amplifier you can ignore the light Permanent Magnet Motor 012 07210A Initial Assembly Initial Assembly of Permanent Magnet Motor 1 Locate the part shown in the diagram below retaining nut dual slip ring commutator this end down for AC motor a split ring commutator this end down for DC motor armature field magnets brushes Figure 1 Permanent Magnet Motor Assembly 2 Gently lower the armature onto the shaft To make a DC motor the split ring commutator should be down for an AC motor the dual slip ring commutator should be down Carefully rotate the armature back and forth to separate the brushes and allow the commutator to slip down between them If necessary insert a pencil or similar object down between the brushes Use only the most delicate force to avoid bending the brushes and necessitating adjustments or repairs Screw retaining nut onto shaft 3 Refer to the instructions included in experiments 1 3 for details of the electrical connections gt The motor may be left assembled for storage 17 570 012 07210 Permanent Magnet Motor Suggested Uses Operation as a DC motor The Permanent Magnet Motor can be used to dem
13. a sine wave whose amplitude and wave length period is decreasing to zero It would be the same as a except all portions that would be below the horizontal time axis are instead reflected above it It would be the same as b except everything is below the axis Experiment 3 Notes concerning the setup If the power source does not limit the current to 1 A use an appropriate resistor in series to limit the current If the AC power source does not quantify the current use an appropriate ammeter or calculate the current by measuring the voltage drop across a resistor of 0 51 ohm and a power rating of 1 watt wired in series Remind students not to prolong situations when the armature is not spinning and the power is connected the coils will overheat Answer To Questions Part A 5 a b Yes Yes Since the coils are wound such that the north poles of each are in the same direction they work together to produce a net magnetic flux for the armature that is the sum of the magnetic flux of each of the coils True 7 yee 27 Permanent Magnet Motor 012 07210A 6 Opposite 7 Yes 8 a b Part B 3 a b 4 a b 5 a b The armature s north pole alternates from end to end as the AC waveform alternates from posi tive to negative The slip ring commutator connects the armature to the power source by way of the brushes and enables the current to travel in an unbroken
14. adily noticeable Nonetheless the reasoning that led to Lenz s law allows you to predict the direction of current Consider the 180 degree rotation you performed above a To oppose the motion during the first 90 degrees of rotation what pole N or S would the taped end of the armature need to be gt To answer this question you will need the right hand rule which can be used to predict the direction of the magnetic field of a coil Grasp the coil with the fingers wrapped around the coil in the direction of the current The thumb will point in the direction of the field i e toward the north pole of the coil Current direction here is described as being from the positive to the negative conventional current Note that this is opposite to the direction of electron movement Eo C 15 Permanent Magnet Motor 012 07210A b To oppose the motion during the second 90 degrees of rotation which pole N or S would the taped end of the armature need to be 9 In order to cause the armature to act as you stated in step 8 above which direction would the induced current need to move a Moust electronic current enter or leave the coil from the upper brush in order to make the armature act as you described in 8 a above b Must electronic current enter or leave the coil from the upper brush in order to make the armature act as you described in 8 b above 10 Use a voltmeter set on a DC millivolt range to test your
15. aused by improper packing of the equipment for return shipment will not be covered by the warranty Shipping costs for returning the equipment after repair will be paid by PASCO scientific Credits Author Jim Housley Editor Sunny Bishop Equipment Return Should the product have to be returned to PASCO scientific for any reason notify PASCO scientific by letter phone or fax BEFORE returning the product Upon notification the return authorization and shipping instructions will be promptly issued NOTE NO EQUIPMENT WILL ACCEPTED FOR RETURN WITHOUT AN AUTHORIZATION FROM PASCO When returning equipment for repair the units must be packed properly Carriers will not accept responsibility for damage caused by improper packing To be certain the unit will not be damaged in shipment observe the following rules 1 The packing carton must be strong enough for the item shipped 2 Make certain there are at least two inches of packing material between any point on the apparatus and the inside walls of the carton 3 Make certain that the packing material cannot shift in the box or become compressed allowing the instrument come in contact with the packing carton Address PASCO scientific 10101 Foothills Blvd P O Box 619011 Roseville CA 95678 9011 Phone 916 786 3800 FAX 916 786 3292 email techsupp pasco com web Wwww pasco com 012 07210 Permanent Magnet Motor Introduction
16. brushes Adjust the power source to deliver 6 volts of DC current limited to 1 0 amp Have your teacher show you how if you don t know Figure 3 3 2 Hold the armature in a position Experimental Setup like that shown in Figure 3 3 Hold the ceramic magnet near the ends of the armature in order to establish which end is a north pole and which is a south pole The painted face of the magnet is its North Pole north seeking pole You can verify this by hanging the magnet from a thread and observing that the painted face points toward the North toward the Earth s north magnetic pole located in northern Canada If both poles of the ceramic magnet attract the armature the pole with the stronger attraction will be the opposite pole Verify that the result of the tests agree with your results from Step 3 Determine the polarity of the field magnets in the same way 17 5700 21 Permanent Magnet Motor 012 07210A 3 Now set the power source to furnish to the brushes on alternating current with a sinusoidal waveform at a frequency of about 30 Hz and voltage of about 6 volts Slowly rotate the armature by hand through one complete revolution a Describe the sensation you feel b Explain why this happens 4 Repeat this with 30 Hz and 4 volts a Does this feel different How b Explain why gt Troubleshooting If there was no vibrating sensation in the previous step either the brushes were not contacting the sli
17. e onto the shaft The dual slip ring commutator should be down Carefully rotating the armature back and forth will often separate the brushes and allow the commutator to slip down between them otherwise insert a pencil or similar object between the brushes to separate them Only the most delicate force should be used to avoid bending the brushes and necessitating adjustments or repairs 6 Position the armature so that it is at right angles to the N S orientation of the field magnets Then rotate it 90 degrees so that the end of the armature marked with tape is near the north pole of the magnet The magnetic field of the magnet may be represented by arrows passing out of the north pole and into the south pole a What happens to the amount of this magnetic field that passes through the loops of the coils during your 90 degree rotation above If the amount changed did it increase or decrease b What does Faraday s induction law say about this situation 7 Continue rotating the armature another 90 degrees a What happens to the amount of this magnetic field that passes through the loops of the coils during your 90 degree rotation If the amount changed did it increase or decrease b What does Faraday s induction law say about this situation c How would the induced emf during the rotation of step 6 be different from that of step 7 8 The forces due to Lenz s law in this equipment are much less than other effects and are not re
18. ely after you apply the AC power start the motor manually by grasping the black plastic bushing at the top of the armature assembly between thumb and forefinger and spinning the armature It may take several attempts to successfully start the motor because you must spin the armature at a speed that approximately matches the frequency of the power 8 Set the voltage to 8 volts and the frequency of the alternating current to 16 Hz Start the motor and use the stroboscope or photogate to determine the rotational speed of the motor What is the rotational speed of the armature If the result is not already expressed in revolutions per second convert it to these units 9 While the motor is running lower the voltage to 6 volts Does the rotational speed of the armature change when you change the voltage Note with the PASCO 6500 Series Power Amplifier the motor may stop and need to be restarted manually 10 Return the voltage to 8 volts and change the frequency of the alternating current to 20 Hz and then 24 Hz determining the rotational speed each time Manually restart the motor each time if needed Does the rotational speed of the armature change when you change the current frequency 11 If the room is lit with fluorescent lights you can also see the effect changing the current frequency on the motor s speed Fluorescent lamps flash twice during each cycle of the AC power that supplies them When the motor ope
19. he voltage and current produced is always in the same direction direct current but is pul sating not steady The pulsating nature will be difficult to note with a digital meter As suming as before that the negative lead of the meter is connected to the upper brush and the positive lead is connected to the lower brush then if armature is rotated clockwise as viewed from above the meter will read positive It responds similarly to a but in the opposite direction Just as the current is about to reverse direction as for example between steps 10 a the commutator reverses the connections between the coil and the brushes in order to main tain the direction of the current pulsating DC The effect would be greater voltage and current Answers will vary Two possible explanations include 1 The free electrons present in the wire of the coil move through the wire as a current due to the force given by F qV x B where the force is seen as being proportional to the velocity of the wire and thus the electrons contained in it At greater rotational speeds the velocity of the wire would be greater and thus the force causing electron movement would also be greater 2 Faraday s law states that the emf induced is proportional to the rate at which the flux in the loops of the coils is changing At higher rotational speeds the rate of change of the flux is greater and thus so is the emf The graph of voltage versus time would be
20. magnets may be thought of as possessing north and south poles that retaining nut or interact with the north and south poles of the armature 8 an electromagnet Like poles repel while unlike split ring poles attract The armature rotates until its north pole commutator is as close as possible to the south pole of the permanent magnet and also as far as possible from the north pole At that moment the alternating armature current reverses its direction in the armature The poles likewise reverse promoting another half turn of the armature dual slip ring commutator A better explanation involves an understanding of fields The field magnets produce a magnetic field that passes through the gap between the poles When current passes through the turns of the armature in the presence of the field forces act to cause a torque that rotates the armature Inertia carries the armature past field the position of no torque to the point where the torque magnets would force the armature back in the other direction Instead if the rotational speed of the armature matches the frequency of the alternating current the direction of current in the armature will reverse at that instant so that the torque continues to act in the original direction Setup Gently lower the armature onto the shaft with the dual Figure 3 1 slip ring commutator down Carefully rotate the Installation of the Permanent Magnet Motor armature back and f
21. mature would be its north pole at that instant In this case is magnetic north on the same or opposite end of the armature 20 012 07210 Permanent Magnet Motor 7 Turn the armature over 180 and imagine that the AC current is in the positive half of the waveform Note the path of the wire from where it is attached to the slip ring to where it enters and exits from the coil on the left side of the armature Use the right hand rule to determine the direction that the magnetic field would flow Is the north pole on the same arm of the armature as in step 5 8 Imagine that the AC current is in the negative half of the waveform Use the right hand rule to find the armature s north pole a What can you say about the location of the armature s north pole as the AC waveform alternates from positive to negative b Whatis the function of the slip ring commutator 9 Gently replace the armature onto the shaft The dual slip ring commutator should be down Carefully rotate the armature back and forth to separate the brushes and allow the commutator to slip down between the brushes Procedure Part B 1 Connect the motor to the power source by one of these methods Figure 3 3 Insert banana plugs into the openings in the ends of the plastic brush holder Grip the brass posts of the brush holder with large alligator clips or e Attach small alligator clips to the ends of the brass strips that serve as
22. n the coil 7 a It decreased b Anemf will be induced The emf will be opposite in sign or direction in the two steps because the change in flux within the turns is opposite in the two cases In one case it is increasing in the other case decreas ing 8 a It should be a north pole to repel the N pole of the field magnets opposing the motion b a south pole 9 a It must enter the coil from the upper brush b It must leave the coil and pass into the upper brush 10 If the negative lead of the meter is connected to the upper brush and the positive lead is connected to the lower brush then the meter value will show positive during the first quarter turn and nega tive during the second quarter turn 11 a During the 3rd quarter turn the current will leave the coil and pass into the upper brush dur ing the 4th quarter turn the current will enter the coil from the upper brush b Assuming as before that the negative lead of the meter is connected to the upper brush and the positive lead is connected to the lower brush during the 3rd quarter turn the meter will show negative or move left during the 4th quarter turn the meter will show positive or move right c Every result will be reversed 12 3600 cycles per minute or 60 cycles per second more properly termed 60 Hertz or 60 Hz 26 PAS oe 012 07210 Permanent Magnet Motor Part B DC Generator 1 a b d b 3 b T
23. nt Magnet Motor 012 07210A Part B 3 Results of the test should agree with predictions 4 Clockwise if the leads are connected exactly as shown in Figure 2 and the north pole of the field magnets are on the left 5 a It should rotate in the counter clockwise direction b Answers will vary If students explain using the concept of opposite magnetic poles attract and same poles repel they will say something like As the opposite sides of the split ring com mutator come in contact with the lead of the DC power supply the location of the north pole of the electromagnet alternates causing it to seek alternating poles on the permanent magnet If students respond using the concept of torque they might say The flux lines of the perma nent magnet extend from its north to south pole and interact with the flux lines of the electro magnet producing a torque that spins the armature Inertia carries the armature past the posi tion of no torque to the point where the torque would force the armature back in the other di rection However at that point the commutator reverses the direction of current in the arma ture so the torque continues to act in the original direction 6 a The motor speeds up b The motor s speed is directly dependent on the voltage of the DC current Experiment 2 Answers To Questions Part A AC Generator 6 a It increased b Anemf electromotive force or voltage will be induced i
24. ometer or multimeter as you move the armature through the magnetic field PASC 13 Permanent Magnet Motor 012 07210A Setup 1 Gently lower the armature onto the shaft with the dual slip ring commutator pointed down Carefully rotate the armature back and forth to separate the brushes and allow the commutator to slip down between them If necessary insert a pencil or similar object down between the brushes Use only the most delicate force to avoid bending the brushes and necessitating adjustments or repairs 2 Connect the motor to the meter by one of these methods Figure 2 1 e Insert banana plugs into the openings in the voltmeter or ends of the plastic brush holder galvanometer Grip the brass posts of the brush holder with large alligator clips or e Attach small alligator clips to the ends of the brass strips that serve as brushes split ring commutator Procedure Part A AC Generator 1 During the first part of this experiment the dual slip ring commutator should be pointed down between the brushes If it is not remove the armature from the shaft by grasping it between the thumb and forefinger and rotating it back and forth while lifting gently Sometimes it may be necessary to insert a pencil between the brushes Figure 2 1 to gently separate them so that they don t prevent Experimental Setup removal of the armature 2 The cylindrical ceramic magnet may be used to determine the polarity of
25. onstrate the operation of a DC motor Experiment 1 Students can explore relationships between motor speed and voltage as well as between direction of armature rotation and polarity learning key concepts including action of the split ring commutator dependence of speed on voltage dependence of direction of rotation on polarity right hand rule and direction of current flow from positive to negative Action of AC and DC generators Spinning the armature by hand while it is connected to a sensitive DC meter or to the Signal Interface II shows the action of an AC generator as well as the rectifying action of the commutator in a DC generator Experiment 2 Eo C e Operation of a synchronous AC motor Coupled with an AC signal supplied by the PASCO PI 9587C Digital Function Generator Amplifier Science Workshop 700 or 750 Interface and CI 6552A Power Amplifier or a similar function generator the Permanent Magnet Motor will operate in sync with 15 to 30 Hz and often wider range signals Experiment 3 Students can explore the relationship between AC voltage and motor speed as well as between AC current frequency and motor speed They can conduct detailed explorations of the precision of synchronism of AC current and motor speed with a PASCO SF 9211 Digital Stroboscope or PASCO ME 9215A Digital Photogate Timer with memory or by observing the stroboscopic effect of an ordinary fluorescent lamp at selected motor speeds As a resul
26. orth to separate the brushes and onto the Field Magnets 17 570 19 Permanent Magnet Motor 012 07210A allow the commutator to slip down between them If necessary insert a pencil or similar object down between the brushes Use only the most delicate force to avoid bending the brushes and necessitating adjustments or repairs Procedure Part A 1 Remove the armature from the shaft by grasping it between your thumb and forefinger and rotating it back and forth while lifting gently If necessary insert a pencil between the brushes to gently separate them so they don t prevent removal of the armature Examine the armature closely and imagine current entering one of the two slip rings from a brush Trace the path of the current through the wire to the coil through the coil through the wire to the coil on the opposite side of the armature through that coil and through the wire to the other slip ring and into the second brush By carefully examining the part of the coils where the leads emerge from the coil you should be able to determine the direction in which the wire is wound on the coil Figure 3 2 Holding the armature in one hand follow the wire from the slip ring to the left coil of the armature and note the direction the wire is wound in the coil Note where the wire enters and exits the coil Imagine that the AC current is in the positive half of the waveform This means that conventional current comes out Figure
27. other magnets The painted face of the magnet is its North Pole north seeking pole You can verify this by hanging the magnet from a thread and observing that the painted face points toward magnetic North the earth s north magnetic pole located in northern Canada Determine the polarity of the field magnets by holding the ceramic magnet near its rectangular poles In the event that both poles of the ceramic magnet attract a pole piece the stronger attraction occurs when opposite poles are together Label the pole pieces N and S using small strips of tape 3 Examine the armature closely and imagine current entering one of the two slip rings from a brush Trace the path of the current through the wire to the coil through the coil through the wire to the coil on the opposite side of the armature through that coil and through the wire to the other split ring and into the second brush By carefully examining the part of the coils where the leads emerge from the coil it should be possible to determine the direction in which the wire is wound on the coil Can you verify that the current maintains its same direction of rotation as it leaves one coil and enters the other This means that the two coils of the armature act as a single coil Ask for help if you cannot 14 LAC 012 07210 Permanent Magnet Motor 4 Label the end of the armature that connects to the upper slip ring with a small piece of tape 5 Gently replace the armatur
28. ow the length of the conductor if it is part of a circuit The force on the charges can be seen from the equation to be proportional to both the speed and the strength of the magnetic field From this reasoning you can derive Faraday s law of electromagnetic induction which states that a change in the magnetic flux linking a closed circuit will result in an electromotive force or electric current in the circuit that is instantaneously proportional to the time rate of change of the linking flux however it is easier to understand Faraday s law by observing the action of a generator In a generator an electromotive force emf that is proportional to the rate of change is induced in a loop of wire that is in a field of changing magnetic flux The coils of the armature may be thought of as many loops connected in series Surprisingly the direction of induced current can be determined from the law of conservation of energy due simply to friction work must be done to rotate a generator If the generator is connected to a load and producing electric current additional work must be done to turn the shaft This reasoning led to Lenz s law the induced current is in such a direction as to produce a magnetic field that opposes the original magnetic field You can demonstrate Lenz s law yourself by determining the direction of the magnetic field of the permanent magnets and by detecting the direction of the induced electric current with a galvan
29. p rings there was no AC voltage present at the brushes or some other defect existed Recheck the connections and gently bend the brushes inward to make better contact If neither of these actions corrects the problem get assistance If there was a vibrating sensation during only part of the rotation turn off the power remove the armature and examine both the split rings and brushes for corrosion and pitting Cleaning these with very fine 600 grit emery paper will usually correct the problem and result in better 5 Repeat with 15 Hz and 6 volts a Does this feel different How b Explain why 6 Turn the power off 7 Set up the photogate or stroboscope to measure the speed of rotation of the motor following your teacher s instructions If you are using a photogate construct a chopper of a 7 5 cm piece of card stock to interrupt the beam of light from the photogate as follows Cut a 7 5 cm square from corrugated cardboard and punch a hole that is 1 cm in diameter in the center a 4 cork boring tool works well If the square slips you may need to secure it with 22 012 07210 Permanent Magnet Motor tape Slip the square part far enough way down the split ring commutator so you can grip the plastic bushing to spin the armature Position the photogate so the corners of the square interrupt the photogate s beam 4 times per revolution gt Notice that the motor is not self starting Immediat
30. predictions When electronic current enters the positive terminal of a meter the value will be positive If electronic current enters the negative terminal the needle will swing left unless prevented by a peg in the meter and in a digital meter a negative result will be displayed a Test your predictions for 8 a and b above After connecting the meter to the brushes repeat the two 90 degree rotations taking about one half second for each Comment on your findings Using same reasoning as before predict the direction s of the current during the next 180 degree rotation following the one you just made b Test your predictions with the meter and comment c What changes if the armature is rotated in the opposite direction 12 As the armature rotated the current changed both in magnitude and direction This is called alternating current If this generator were rotated at 3600 revolutions per minute what would be the frequency of the alternating current 16 PASC Ce 012 07210 Permanent Magnet Motor Part B DC Generator 1 Review steps 1 and 5 Then remove the armature and install it with the split ring commutator down between the brushes 2 Connect the meter and rotate the armature slowly at a rate of about one complete revolution in two seconds a How does the meter respond b How does the meter respond when the armature is rotated in the opposite direction c Why does the behavior of
31. rates at a submultiple of this rate multiple images will appear to be stationary so the armature will appear to be stationary Observe the armature at current frequencies of 15 20 24 and 30 Hz or at 16 67 20 and 25 Hz in locations with 50 Hz AC power Eo C 23 Permanent Magnet Motor 012 07210A 24 PASC Ce 012 07210 Permanent Magnet Motor Teacher s Guide Experiment 1 Remind students not to prolong situations when the armature is not spinning and the power is connected the coils will overheat Figure 1 4 labeled Draw arrows indicating the direction of current flow AN Indicate which pole is north N or south S When you wrap your fingers in the direction of the flow of the electric current your thumb points towards the north pole of the magnetic field wire connected to theG terminal of the power supply Answers To Questions Part A 6 a Yes b They add together to create a greater effect 7 No 8 Yes b True c False d The location of the armature s north pole alternates between ends of the armature as the lead touches the alternate sides of the split ring commutator The current is alternating in the coils because one side of the split ring commutator sends the current in one direction in the wire while the other side sends it in the opposite direction in the wire I PASC Ci 25 scientific Permane
32. rt staff it would be helpful to prepare the following information If your problem is computer software related note Title and revision date of software Type of computer make model speed Type of external cables peripherals If your problem is with the PASCO apparatus note Title and model number usually listed on the la bel Approximate age of apparatus A detailed description of the problem sequence of events If possible have the apparatus within reach when calling to facilitate description of individual parts If your problem relates to the instruction manual note Part number and revision listed by month and year on the front cover and Have the manual at hand to discuss your ques tions
33. rue or False In the DC motor you cannot determine the direction of the magnetic field of the armature by determining the direction of the north pole of either of the two coils d What happens to the location of the armature s north pole as the brush attached to the lead touches the different sides of the split ring commutator e Explain why the current in the armature is alternating despite the fact that the motor is supplied with direct current Hint think about your answer to 8d 9 Gently replace the armature onto the shaft with the split ring commutator pointing down Carefully rotate the armature back and forth to separate the brushes and allow the commutator to slip down between them If necessary insert a pencil or similar object between the brushes to separate them Use only the most delicate force to avoid bending the brushes and necessitating adjustment or repairs 10 PASC Ce 012 07210 Permanent Magnet Motor Procedure Part B 1 Turn on the power Adjust the output voltage to 6 volts 2 Use the small cylindrical ceramic magnet to check your predictions from steps 5 and 6 above The painted face of the magnet is its North Pole north seeking pole You can verify this by hanging the magnet from a thread and observing that the painted face points toward the North toward the earth s north magnetic pole located in northern Canada With the armature and power supply leads oriented as in Figure 1 2 and the power
34. s for experiments in this manual are for mechanical setups with specific PASCO equipment the experiments in this manual may be set up in a variety of ways depending upon the equipment you have available They can all be done with or without the PASCO Science Workshop computer interface Table 1 lists the equipment suggested for optional experimental setups You may be able to substitute other equipment for the PASCO models listed in this table Table 1 Equipment Options for Experiments 1 3 Equipment Permanent Magnet Motor SE 8658A Low Voltage DC Power Supply SE 9712 9720 or equiv Low Voltage AC DC Power Supply SF 9584A Power Amplifier CI 6552A Digital Function Generator PI 9587C Digital Photogate Timer SF 9215A Digital Stroboscope SF 9211 Experiment Experiment 1 DC Motor no computer interface no computer interface computer interface computer interface Experiment 2 AC DC Generator no computer interface x x x ele Experiment 3 Synchronous AC Motor no computer interface mee txt gt et Dt Px x x 1 beers If your power supply does not have the capability to quantify output current you can measure it using an ammeter Be sure to limit the current to 1 A max to avoid damaging the equipment The value can also be calculated from the voltage drop across a small value series resistor This option prevents damage to a potentially
35. sensitive ammeter 2 I PASC Oe sersentifie 012 07210 Permanent Magnet Motor Options for electrical connections Banana style plugs may be inserted into openings in the base of the motor e Large alligator clips may be attached to the brass posts that hold the brushes e Small alligator clips may be attached directly to the ends of the brushes where they protrude from the slits in the brass posts Power Sources Warnings A It is important to limit the current of the power source to 1 0 A to avoid damaging the coils of the armature This may be done by e Choosing a power supply that may be set to limit the current to a maximum value of 1 0 See Table 1 for specific suggestions for power sources e Using a PASCO CI 6552A Power Amplifier which automatically limits current to 1 0 A e Carefully monitoring current with The power supply s built in current meter or Science Workshop and the CI 6556 Current Sensor or A voltmeter or multimeter by measuring the voltage drop across a low value series resistor such as 0 51 ohm 1 watt and calculating the current For power supplies that do not have the capability to measure output voltage use a multimeter or voltmeter to insure that the current does not exceed 1 0 A See Table 1 for specific suggestions for power sources A Aa C C Starting the motor e The motor is not self starting Immediately after you appl
36. t they learn key concepts including the independence of AC motor speed and voltage dependence of AC motor speed on current frequency and action of a dual slip ring commutator Additional possibilities The Permanent Magnet Motor can be used to determine the speeds of maximum power and maximum efficiency of a DC motor by varying the load while simultaneously measuring the speed torque and armature current In this experiment you can measure the motor s speed with a photogate or stroboscope Permanent Magnet Motor 012 07210A 012 07210 Permanent Magnet Motor Experiment 1 Operation of the DC Motor ePermanent Magnet Motor low voltage DC power supply limited to 1 A small piece of masking EQUIPMENT NEEDED Purpose The purpose of this experiment is to demonstrate the operation of the DC motor in terms of basic concepts of electromagnetism Theory Setup The field magnets are permanent magnets possessing a north pole and a south pole that interact with the north and south poles of the armature an electromagnet when connected to an electric current Like poles repel while unlike poles attract The armature rotates until its north pole is as close as possible to the south pole of the permanent magnet and also as far as possible from the north pole Inertia carries the armature past this point However as the armature passes this point the commutator reverses the direction
37. the split ring commutator differ in results from that of the dual slip rings Which of the following describes the results a b pulsating DC steady DC 3 Spin the armature several more times increasing the speed each time Stop if this causes you to exceed the range of the meter a What is the effect of greater rotational speeds b This result may be explained in terms of the ideas discussed above Try to explain the effect of greater speeds Ee C e 17 Permanent Magnet Motor 012 07210A 4 If you have a PASCO computer interface and Voltage Sensor try this a b d Predict how a graph of voltage versus time would look if you put the dual slip rings down and spun the armature rapidly and let it slow to a stop What if the split rings were down What if the split rings were down but you spun it in the opposite direction Test these predictions if the proper equipment is available 18 012 07210 Permanent Magnet Motor Experiment3 Operation of an AC Synchronous Motor EQUIPMENT NEEDED Permanent Magnet Motor multimeter corrugated cardboard e Digital Stroboscope or e power source that will deliver both Digital Photogate Timer DC and AC current limited to 1 0 A Purpose The purpose of this experiment is to demonstrate the operation of an AC synchronous motor in terms of basic concepts ofelectromagnetism Theory The field magnets permanent
38. the split rings of the commutator Follow the wire from the split ring to the right coil of the armature and note the direction the wire is wound in the coil Note where the wire enters the coil and where it exits Use the right hand rule to determine the direction the magnetic field will flow when you turn on the power Grasp the coil with your fingers wrapped around the coil in the direction of the current Figure 4 Current direction is described by convention as being from the positive to the negative lead Note that this is opposite of the direction of electron movement See note on page 10 Your thumb will point in the direction of the field that is toward the Figure 1 3 north pole of the coil Put a small piece of tape on the end of the Direction of the Wire Winding on armature that will be its north pole when you turn on the power the Coil Follow the wire over to the left coil Use the right hand rule to find the direction of the north pole Record your observations on Figure 1 4 a In this situation is the direction of the north pole the same for the right and left coils b Both coils surround a single iron core on the armature and each coil is capable of temporarily magnetizing the core when electric current is running through it Do the actions of the two coils add to create a greater effect or cancel to create a reduced effect Consider your answer to 6a above 8 012 07210 Permanent Magnet Motor
39. y the power start the motor manually by grasping the black plastic bushing at the top of the armature assembly between your thumb and forefinger and spinning the armature e With the Permanent Magnet Motor configured as either a DC or universal motor almost any attempt you make at spinning the armature will result in successfully starting the motor only the direction of the spin is important e When configured in an AC synchronous mode the motor must be spun at a speed that approximately matches the frequency of the power source This is impractical at frequencies much above 30 Hz and some students may require assistance even a lower frequencies Maintenance and Storage The motor may be stored in the plastic bag furnished this will keep it dust free and reduce problems of corrosion that may occur in areas having high humidity The commutators and brushes will experience wear oxidation and pitting and will require attention from time to time Rotate the armature slowly by hand and monitor current flow or sense the force developed to determine whether proper contact is occurring between brushes and commutator To restore proper operation clean the contacts with emery paper or shift the brushes somewhat to expose new surfaces Careless installation of the armature onto the shaft might bend the brushes You can easily bend them back into their original shape with finger pressure gt NOTE If you are using a P
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