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Neodymium magnets are very strong. Follow the safety guidelines in the Procedure for working with these magnets. Learn how to build a simple electric motor and study how simple build your own electric boat motor worksheet affect the motor's rotation.

What do windshield wipers, CD players, DVD recorders, blenders, ice makers, laptops, and walking toys have in common? They all contain electric motors. In fact, you can walk through your house and find many electric motors hidden in electrical devices, appliances, and toys in every room.

The electric motors are build your own electric boat motor worksheet always obvious in devices, and you might need to do some background research about how the devices work to discover where their motors are hidden. Electric motors are an important, and even vital, part of our world today. But, you may have wondered, just how do those electric motors work?

Have you ever played with magnets? If so, you are well on your way to understanding how simple electric motors work. Magnets produce a magnetic field with a north pole and a south pole. If you try to push the north poles of two magnets together, they will not want to come.

Instead, they will repel each. The same thing happens if you try to push two south poles. If, however, you bring the north pole of one magnet close to the south pole of another, they will attract each other and stick. In summary, like poles north-north or south-south repel, opposite poles north-south attract.

As you've probably seen, magnets are typically black, so there is no visible way to tell which end is north and which is south. Figure 1. The top part of this diagram shows how the needle of a compass aligns in the presence of a bar magnet, revealing the poles of the magnet. A compass needle is basically a small bar magnet, as shown in the lower diagram. As opposite poles attract, the north pole of the needle will be attracted to the south pole of the magnet.

A permanent magnet further explained below is represented in this diagram. This method to find the poles of a magnet can also be used to detect the presence and direction of a magnetic field around a temporary magnet also further explained.

An electric motor uses the attracting and repelling properties of magnets to create motion. An electric motor contains two magnets; in this science project, you will use a permanent magnet also called a fixed or static magnet and a temporary magnet. The temporary magnet is also called an electromagnet. A permanent magnet is surrounded by a magnetic field a north pole and a south pole all the time hence the term "permanent"but the electromagnet creates a magnetic field a north pole and a south pole only when electric current is flowing through a wire hence the term "temporary".

The strength of the electromagnet's magnetic field can be amplified by increasing the current through the wire, or by forming the wire into multiple loops. Such loops of electrical wire are often called a coil. To make an electric motor, the electromagnet the temporary magnet is placed on an axle so it can spin freely.

It is then positioned within the magnetic field of a permanent magnet. This is when things get interesting! When a current is passed through the electromagnet, the resulting temporary magnetic field made up of a north pole and a south pole interacts with the permanent magnetic field made up of a north pole and a south pole to create attractive and repelling forces. These forces push the electromagnet, which freely spins on its build your own electric boat motor worksheet, and an electric motor is born.

The strength of the permanent magnet and the electromagnet will play a role in the strength of the repelling or attracting forces, and thus, in the speed at which the motor is spinning.

You can actually predict in which direction the coil build your own electric boat motor worksheet be pushed or in which direction the motor will spin with Fleming's left-hand rule for motors. Hold your left hand out, as shown in Figure 2 below, with the thumb, pointer, and middle fingers at right angles to each other and imagine arrows at the end of these three fingers. Your pointer finger represents the direction of the magnetic field of the permanent magnet from north pole, pointing toward your palm, to south pole, pointing away from your finger.

Your middle finger represents the direction of the electric current in the wire which flows trough the wire from the positive terminal of the battery to the negative terminal of the battery.

The direction of the force or push on the wire is predicted by the direction in which your thumb is pointing. The left-hand rule for electricity running through wires is illustrated with a drawing of a persons left hand. The thumb extends upward, the pointer finger points forward and the middle finger extends perpendicular to the pointer finger.

Each finger forms a right angle between the. The thumb represents the direction of force on a wire, the pointer represents the direction of the magnetic field and the middle finger represents the direction of the electric current.

Can you apply this rule to the build your own electric boat motor worksheet in the short piece of wire shown in Figure 3, below? Hold your left hand with your middle finger pointing to the right the direction of the currentyour pointer finger pointing at build your own electric boat motor worksheet right angle to the middle finger direction of the magnetic field, represented by the black dotted arrows in Figure 3and your thumb at a right angle with respect to your middle and pointer fingers.

Is your thumb pointing up? It should be, as in this configuration, where the wire will be pushed upward. The diagram build your own electric boat motor worksheet electricity flowing from left to right through a wire. Follwing the left hand-rule the wire experiences a force pushing it upwards and a magnetic field that moves from north in the bottom-left to south at the top-right.

Knowing how a current-carrying wire moves, what would happen if the wire was bent into a loop? Figure 4, below, will help you find. You can in your imagination break the loop up into individual build your own electric boat motor worksheet of straight wire, analyze those using Fleming's left-hand rule, and use this to determine which way the loop will.

Figure 4 shows the loop broken up into a wire close to the south pole and one close to the north pole. Using Fleming's left-hand rule shows that the segment closer to the south pole is pushed up, and the segment closer to the north pole is pushed.

In other words, the two sides of the loop are pushed in opposite directions, right? When the wire loop is placed on an axle, these pushes in opposite directions cause it to spin. Note, no force or push is created when the magnetic field and the current run parallel to each. Diagram showing electricity flowing through a looped wire, entering on the left and exiting on the right.

While electricity moves from left to right the wire experiences a force pushing it upwards and a magnetic field that moves from north in the bottom-left to south at the top-right.

On the other end build your own electric boat motor worksheet the loop where the electricity flows from right to left the force pushes downward and the direction of the magnetic field stays the. The electromagnet is most often a coil, or a bundle of loops.

Because all loops of wire are parallel, each loop will get the same push. Adding up all those pushes, or motions, creates the nice spinning movement of a motor. If you are a little frustrated that you do not understand exactly how Fleming's left-hand rule works, don't worry! Just keep it in mind as you make the motor, study it, and try to understand the physics behind it again once you have seen the motor running. If it is still difficult to build your own electric boat motor worksheet, ask build your own electric boat motor worksheet help from a teacher or visit Science Buddies' Ask an Expert forums.

To make a motor, the electromagnet must spin in full circles. Let us get a little more practice with Fleming's left-hand rule of motors and predict the direction of motion for different positions of a current-carrying coil placed in a permanent magnetic field and see what happens. Scientists use schematic drawings diagrams of electric circuits. Two such drawings can be found in Figure 5. They both represent a battery-powered current-carrying coil or electromagnet placed in a magnetic field.

Drawing B results from Drawing A, as the electromagnet rotates over degrees. Use Fleming's left-hand rule to predict in which direction the coil will turn for Drawing A and for Drawing B. Did you predict that the direction of rotation in Drawing A would be opposite to the direction in Drawing B? That is correct. These opposite forces will make the electromagnet flip forward and back, but never let it make a full turn.

To create a motor, the electromagnet needs to rotate continuously, either clockwise or counterclockwise. Before you read on, can you think of a way to make the electromagnet spin around continuously?

There are actually several ways to make the electromagnet placed in a permanent magnetic field spin. The solution applied in this science project uses Newton's first law of motionwhich states that an object in motion remains in motion unless acted upon by an outside force.

This means that when the electromagnet is spinning, it will continue to coast through a rotation unless something stops it. As discussed above, if current is always flowing through the wire, the resulting pushes will oppose each other, and the coil will bounce back and forth, but not spin continuously. However, if we can make the current flow only half of the time, all the pushes are in the same direction.

Build your own electric boat motor worksheet means the coil is actively pushed one-half of each rotation while current is flowing, and "coasts" through the next half while no current is flowing, until it comes around and receives the next push. This allows the motor to spin continuously. If this is your first experience with electrical circuits, it is important to remember that electrical current always needs a complete path in which to flow; in this case, from the positive to the negative terminal of the battery.

If build your own electric boat motor worksheet is a gap in the circuit for example, a disconnected or broken wirethe current will stop flowing.

This science project walks you through the process of creating your own simple electric motor. You will start by creating an electromagnet suitable for the motor. This temporary magnet will then be placed in a permanent magnetic field and off it goes! For a more advanced science project, the following source describes how to calculate the rate of motor spin using a voltage probe:.

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Write to us at scibuddy sciencebuddies. You will build a simple electric motor, called a Beakman's motor.

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