Реферат

Реферат на тему UnH1d Essay Research Paper Magnatism

Работа добавлена на сайт bukvasha.net: 2015-06-18

Поможем написать учебную работу

Если у вас возникли сложности с курсовой, контрольной, дипломной, рефератом, отчетом по практике, научно-исследовательской и любой другой работой - мы готовы помочь.

Предоплата всего

от 25%

Подписываем

договор

Выберите тип работы:

Скидка 25% при заказе до 23.11.2024


Untitled Essay, Research Paper

Magnatism & the Things We THINK We Know About It!

By Austin D. Ritchie Magnatism is a wonderous natural phenomanon. Since days before

scientific

discoveries were even written down the world has been playing with the theories of

magnatism. In these three labs we delt with some of the same ideas which have pondered

over for long before any of us were around. In these conclusions we will take a look at

these ideas and find out what exactly we have learned.

To understand the results of the lab we must first go over the facts

about

magnatism on the atomic level that we have discovered. The way magnatism works is

this: magnatism is all based on the simple principle of electrons and there behavior.

Electrons move around the atom in a specific path. As they do this they are also rotating

on there own axis. This movement causes an attraction or repultion from the electrons

that are unpaird. They are moving in two directions though causing a negative and

positive charge. In the case of magnatism though we find that these elements have a lot

of unpaired electrons, in the case of iron, Fe, there are four. What happens then in the

case of a natural magnet the unpaired electrons line up or the magnet in a specific

mannor. That is all the atoms with unpaired electrons moving in a direction which

causes a certain charge are lined up on one side and all the atoms with the opposite

charge move to the other side. The atoms then start to cancel each other out as they

approach the center of the magnet. This all happens at the currie point where these

atoms are free to move and then when cooled and the metel becomes solid the atoms can

no longer move (barely) causing a "permanent" magnet (as in the diagram on the

next

page). This same principle can be applied to a piece of metal that has been sitting next

to

a magnatized piece of metel in that over the long time they are togather the very slow

moving atoms in the metal situate in the same fassion also creating a magnet. Now that

we know the basics lets begin with the experiments.

Part one of the lab started us on our journey. In this part we took an

apparatus

with wire wrapped around it put a compass in the middle of the wire wraps. The setup

was arranged so that the wraps were running parralel with the magnetic field of the earth,

that is they were north-south. With this setup we were able to force a current through the

coils of the apparatus by means of a 6V battery and this created a magnetic field. This is

because the movement of electrons (which electrisity is) causes the presents of a

magnetic field. Now that we know we have a magnetic field running around the compass

we cbegan the experiment. What we did was take the magnetic field of the coils

begining with one coil and continued until we had five. What we learned from this is

that with every extra coil we placed around the compass the motion that the interaction of

the two magnetic fields caused increased. These magnetic feilds being the earth’s and the

coils. What this means is that not only does electicity create a magnetic field but that

there is a direct relationship between the amount of current and the strength of the

magnetic field it creates. This leads us to the relationship: Bc ? I and then by figuring

in the constant we find that we can derive our first equation Bc = k I. This can also be

supported by the data we collected in the lab when we see that as the measured currents

went up the amount of motion went up which mathmaticly indicates that the magnetic

field strength went up.

But we don’t only find this equation but we also find that as the

current (or more

so the magnetic field it creates) acts upon the initial magnetic field of the earth we get

the

motion in the compass. This leads us to the first part of our left hand rule. The left

hand

rule for a straight conductor says that when the lines of flux are created they repel from

the north end of the compass in a certain direction (depending on which way the charge

is moving). This can be explained by our experiment’s data in part one also because as

we introduced the current to the earth’s magnetic field we found that it created the

motion

on the compass. This all agrees with the left hand rule.

Lastly, we found in this part of the lab that magnetic field,

represented by B, is a

vector. We can say this because we know that a vector is anything that has both a

magnatude and a direction. Now we need to prove that B has these features. This can be

done by looking back on our lab and remembering that as we found the value for B it was

the strength of the magnetic field. Now strength indicates that there is a magnatude to

the field, thus giving us the first part of a vector. To finalize the theory we look back

at

the lab and find that as we changed the flow of the electrons in the coils the motion on

the compass changed also. What this tells us is that the magnetic field of the current

passing through the wire has a direction to it also. Knowing this we can deduce that B is

infact a vector. A second, less definite, manor to find that B is a vector is to recall

that in

the equation B = k I we have one definite vector in the I (from earlier labs) and since we

know that you much have a vector on each side of the equation in order for it to balance

out and we know that k is a constant (therefore not a vector) the only possiblility is

that B

is infact a vector.

In addition to these "required" conclusions we also found, as

stated earlier, that

when you have current you also have a magnetic field. This is important because it gives

us another means in which to create magnetic fields other than the use of

"natural"

magnets. But to put this theory into mathmatical application we can use the formula of

Fb = B I L and say that since we know it takes two magnetic fields to cause motion

(represented in this equation by F) and we know that B is in itself a magnectic field we

can deduce that the value for "I L" is infact the value for and thus equivilant

to a second

magnetic field. The next lab we conducted consisted of a factory made coil, an ammeter

to find

the value of the current we were creating and a bar magnet to act as a magnetic field.

What we did was thrust the bar magnet N end first through one of the sides of the coil

and found that this created a current. This happened because what we were actually

doing was taking one magnetic field and putting it to motion thus creating antother

magnetic field, which in this case happened to be an electical current. This experiment

once agains deals with, obeys and exemplifies the left hand rule, but this time for a

celenoid. What that means is that as we were thrusting the magnets N end into the coil

we induced a positive amount of current simply because of the direction in which the

LHR tells us that the current should go. Now the converse is also true in this case. What

that means is that when you either thrust the N end of the magnet out of the coil or

thrust

the S end into the coil we find that a negative amount of current is invoked.

Our next conclusion has to deal with a combonation of theories being

Lenz’s law

and induction. Now we know from above that as we thrust the N end of the magnet into

the coil we achieved a positive current and with a S end a negative current what this

shows us is that there is conservation of energy here. Conservation of energy is a main

part of Lenz’s law. The reason we can say that this is conservation of energy is because

when a charge was induced it is the opposite (pos/neg) of the the current that it was

induced by. We can further Lenz’s law by remembering that the faster we thrust the

magnet into the coil the more current that was produced. This also shows us the

principle of conservation of energy because the more energy put into the system the more

current we got back out. This theory can be easily concluded by saying that only when

you have perpendicular motion of a magentic field can a current be produced. All these

currents and fields are created by what is called induction. What this means is that we

are not actually touching the physical objects togather (contact) but instead just placing

them near each other so that their magnetic fields are "touching" and the motion

or force

can result.

That moves us onto the last part of the lab where we used the same coil

from part

two and hooked it up in a system (pictured on next page) where we could measure the

current strength and have our teeter-totter with an electric current running through it

within the lines of the magnetic field of the coil. What we are able to do with this setup

is

run a current through the system creating a pair of magnetic fields on the coil and the

loop (on the end of the teeter-totter). The diagram below shows the setup that was used

along with a vector diagram. What this tells us is that the force, Fb or magnetic force,

on

the end of the TT that is inside the coil is infact a vector. Once again that means that

it

has both magnatude and direction. Now we learned last term that force is always a

verctor and therefore can assume that this too is a vector but there is even more evidence

to support this. You see the force that is acting upon the end of the TT that is outside

the

coil is being acted on by the force of gravity. This gravitational force, Fg on the

diagram,

has the value Fb * m, where "m" is the mass of the object that is setting on the

end of the

TT. Since we know that gravitational force is a vector and we see that the TT is balanced

out we know that the forces acting upon both sides of the TT must be equal, otherwise

one side would be lowered like in the next diagram (b). Here, in b, we see the TT before

the current, and therefore the magnetic fields acting on eachother causing magnetic force,

has been introduced to the system. As we see the TT is now unballanced. Now look

back at the first diagram and notice that the vectors of Fb and the value of Fg * m are

equal. Since we massed the "weight" we used to uniformity and we know that

gravitational force is 9.8 m/s2 we then know the value of Fb as well as the fact Fb is

indeed a vector that is ofsetting the gravitational force vector. We know this because if

Fb was not a vector the TT would never balance. We also notice that mathmatically

there is a relationship. That is that the units for the value of Fb are kg*m/s2 which we

know to be velocity and therefore a vector as velocity is.

This leads us to the first of three very important equations. This

equation,

Fb = Bc * I * Lloop

then gives us the experimental value for Bc which is important because this could not be

measured directly in our lab. We find this value now very useful because it does not

depend on any of the factory specifications for the coil which we prove to not be true

later. This is the most important equation in this section of the lab for that very

reason.

This is because now that we know the experimental value of Bc without using the factory

specs we can use that value in the next two equatins to find experimental values for the

factory constants and therefore prove those set values right or wrong.

The next equation,

Bc = k * Ic * Iloop * Lloop

now serves two purposes. One, it allows us to calculate a "factory" value for

the

magnetic field, knowing the length of the loop (L), the current through the loop and coil

(I) and the constant (k) from the factory. We do this so that we can compare this value to

our experimental value for Bc and see how close they are. Two, is that you can plug in

the experimental value for Bc and the two I’s and the L and find a value for "k"

based on

our data. We then compared the two numbers of each to find that in actuallity the factory

and the experiment disagree, but minorly. This could be due to either error on our part or

on the factories but at least lets us know that we are relatively close.

Lastly, we look at the equation,

Bc = u * N * I / L

which does the same basic thing as the previous one does accept in this one we can plug

in all numbers but the number of turns (N) and then solve for the experimental number of

turns. Or we can plug in the factory number of turns and all the rest accept Bc and solve

for that leaving us with another factory value for Bc. Once again we compare these

numbers to the numbers we had previosly and this time we find that the number of turns

on the coil is experimentally less to a great extent and that Bc for this equation is

extreemely different than the ones solved for above. What this told us was that while the

factory value for "k" was relatively close the factory set number of turns is

actaully way

off.

All this leads us to the way that the Earth’s magnetic field works. We

have used

this field in the lab but not defined it. But through our experiment we can make some

conclusions. What we learned combined with the diagrams and researched data that we

acquired shows us that the earth does not have a bar magnet in the middle of it that is

making it attract and repel things like compasses but rather that their is something else

going on. After searching and thinking hard we found that the earth actually has no

magnetic field in it’s center but rather that the magnetic pull we feel comes from the

friction (friction induces a current, earlier labs) of the outter layer of molten earth

and the

top layer of its’ crust and the current then creating a magnetic field as we know occurs.

We can say that there is no charge in the middle because we know that the center of the

earth is extreemly hot and with that it must be above the currie point, where a magnet’s

electrons situate and create, when cooled, a magnet. What this means is that it’s too hot

for a magnet to possibly exhist at that temperature. We also know that there is no magnet

there because of the simple fact that on the atomic level a magnet cannot exist in a

liquid

because of the uniformity a strong magnet requires and the "loosness" of the

molecules in

a liquid, that is how free they are to move. Now since we know that the center of the

earth is molten, a liquid, and therefore a magnet cannot exist there. But this doesn’t

explain all of what we have learned. We also see that the magnetic "poles" of

the earth

are actually not as we think of them. As the next diagram shows the earths poles are

actually made up of a magnetic north and south pole and a geological north and south

pole. But these poles very. The magnetic poles are actually slightly off center to the

geological poles. Along with this we can say that because of the scientists of the past we

actually call the magnetic south pole the north pole and vise-versa. This isn’t due to

some

phenomanon but rather the fact that when we think of the north pole we think of the

earth’s pole that the north end of a compas (or any magnet) is attracted to. This is

actually the south end of the earths magnetic field, explaining this confusion.

All of this was learned on our very difficult trip through the world of

the magnet

and now that we have conducted these experiments, done the research, and made these

conclutions we now know that much more about the voo-doo world of the magnet!

318


1. Реферат на тему De Tocqueville Essay Research Paper Amanda HugankisDr
2. Реферат Истоки и современное состояние русского языка
3. Реферат на тему Jerry Springer Vs Oprah Essay Research Paper
4. Реферат на тему Titanic Differences Essay Research Paper Dusty RossProfessor
5. Контрольная работа Ценообразование на потребительском рынке
6. Курсовая на тему Инфляция и безработица 2
7. Реферат Оценка уровня технико-тактической подготовленности баскетболисток спортивно-оздоровительной груп
8. Реферат Демографическое развитие семьи
9. Реферат на тему Строение и функции селезенки
10. Курсовая Переклад суспільно-політичних реалій на основі перекладу статей з газети Нью-Йорк Таймс