Presentation is loading. Please wait.

Presentation is loading. Please wait.

28-Feb Feb-19 converted to Mechanical Energy DC Motor Describe how a d.c. motor works: A current-carrying coil in a magnetic field experiences.

Published byGyles Todd Modified over 5 years ago

Similar presentations

Presentation on theme: "28-Feb Feb-19 converted to Mechanical Energy DC Motor Describe how a d.c. motor works: A current-carrying coil in a magnetic field experiences."— Presentation transcript:

1

2 28-Feb-19

3 converted to Mechanical Energy
DC Motor Describe how a d.c. motor works: A current-carrying coil in a magnetic field experiences a turning effect This effect can be used to produce a continuous rotation (in one direction) by swapping the direction of the current once the coil has turned half a turn. This is done using a split ring commutator Note the Torque is not continuous (has max & min values) How can the speed of the motor can be increased ? Increase the number of turns on the coil Increase the strength of the magnets Increase the current flowing in the coil (by increasing the source Voltage, lower circuit resistance) Electrical Energy is converted to Mechanical Energy Key concept:

4

5

6

7

8

9

10 Model electric motor

11

12 All of the force is contributing to spinning the motor
Same force, but different torque. i.e. not all the force is being used to spin the motor F F N S F

13

14 In the following position, no torque is being produced
In the following position, no torque is being produced. However, the same amount of force is being produced. F N S F

15

16 Problem? F N S F

17

18 N S + rotation axis contact brush
Brushes lose contact with the split ring commutator. Current no longer flows through the motor coil. The coil will continue to rotate clockwise due to its momentum. Brushes regain contact with the split ring commutator. Current flows through the motor coil but in the original direction. Forces exert a clockwise turning effect on the coil. Brushes regain contact with the split ring commutator. Current flows through the motor coil but in the opposite direction. Forces exert a clockwise turning effect on the coil. Brushes in contact with the split ring commutator. Current flows through the motor coil. Forces exert a clockwise turning effect on the coil Brushes lose contact with the split ring commutator. Current no longer flows through the motor coil. The coil will continue to rotate clockwise due to its momentum. + split-ring commutator Electric motor - Fendt

19

20 Making a Simple DC motor preparation of the wire contacts
The secret… preparation of the wire contacts Electrical energy into Mechanical energy Wire cross section!

21 28-Feb-19

22 28-Feb-19 brushes & commutator

23 28-Feb-19

24

25 Question Choose appropriate words to fill in the gaps below:
The motor effect occurs when a _______ carrying wire is placed inside a ________ field. The force exerted is __________ when the wire is at 90° to the magnetic field __________ but is zero if the wire is ________ to the field. The force increases with _________ or current strength, the force __________ in direction if either are reversed. Applications include the electric motor and ___________. current magnetic maximum direction parallel field reverses loudspeaker WORD SELECTION: parallel reverses loudspeaker direction current magnetic field maximum

Download ppt "28-Feb Feb-19 converted to Mechanical Energy DC Motor Describe how a d.c. motor works: A current-carrying coil in a magnetic field experiences."

Similar presentations

The Direct Current (DC) Electric Motor

The Direct Current (DC) Electric Motor
In 1820 Hans Oersted discovered how magnetism and electricity are connected. A unit of measure of magnetic field strength, the oersted, is named after.

In 1820 Hans Oersted discovered how magnetism and electricity are connected. A unit of measure of magnetic field strength, the oersted, is named after.
MAGNETIC EFFECT OF ELECTRIC CURRENT

MAGNETIC EFFECT OF ELECTRIC CURRENT
TRIPLE ONLY The law of magnets Like poles repel unlike poles attract 1.

TRIPLE ONLY The law of magnets Like poles repel unlike poles attract 1.
Physics 12 Direct Current Motors. Joke of the day: An object at rest stays at rest and an object in motion stays in motion with the same speed and in.

Physics 12 Direct Current Motors. Joke of the day: An object at rest stays at rest and an object in motion stays in motion with the same speed and in.
D.C. ELECTRIC MOTORS 1. Motors use the effect of forces on current-carrying conductors in magnetic fields.

D.C. ELECTRIC MOTORS 1. Motors use the effect of forces on current-carrying conductors in magnetic fields.
Lesson 33 AC Generators.

Lesson 33 AC Generators.
Induction and Alternating Current

Induction and Alternating Current
Electric Motors. Current in a wire Creates its own magnetic field Interacts with another field Force on the current carrying wire Rotational motion.

Electric Motors. Current in a wire Creates its own magnetic field Interacts with another field Force on the current carrying wire Rotational motion.
Electromagnetic Induction

Electromagnetic Induction
BEX – Basic Electricity – Unit 13 Magnetic Motors REF: Delmar’s Standard Textbook of Electricity, Unit 13.

BEX – Basic Electricity – Unit 13 Magnetic Motors REF: Delmar’s Standard Textbook of Electricity, Unit 13.
The force on a current-carrying wire A magnetic field exerts a force on a single moving charge, so it's not surprising that it exerts a force on a current-carrying.

The force on a current-carrying wire A magnetic field exerts a force on a single moving charge, so it's not surprising that it exerts a force on a current-carrying.
Forging new generations of engineers. DC Motors and Generators Instruction Plan.

Forging new generations of engineers. DC Motors and Generators Instruction Plan.
Welcome to Physics Jeopardy Chapter 18 Final Jeopardy Question Magnetic fields 100 Electro magnetic Induction Motor Transformers 500 400 300 200 100.

Welcome to Physics Jeopardy Chapter 18 Final Jeopardy Question Magnetic fields 100 Electro magnetic Induction Motor Transformers
17.3 Electric motors and generators

17.3 Electric motors and generators
The Motor Effect.

The Motor Effect.
Motors. Torque on a Solenoid N S SN e - Like poles repel, unlike poles attract. The solenoid will rotate counterclockwise.

Motors. Torque on a Solenoid N S SN e - Like poles repel, unlike poles attract. The solenoid will rotate counterclockwise.
Electricity & Magnetism at Work Electricity, Magnetism, & Motion Chapter 3 Section 1.

Electricity & Magnetism at Work Electricity, Magnetism, & Motion Chapter 3 Section 1.
Magnetic Field Patterns. A Quick Review of Magnetic Fields

Magnetic Field Patterns. A Quick Review of Magnetic Fields
Principles of Physics Meters and Motors. A wire loop placed in a uniform magnetic field experiences a turning force The loop only rotates 90˚, then stops.

Principles of Physics Meters and Motors. A wire loop placed in a uniform magnetic field experiences a turning force The loop only rotates 90˚, then stops.

Similar presentations

Ads by Google