I know this sounds strange but I think I have a magnetic field or just a stronger one than usual. heres my reasoning. 1. any electronics that stay close to me stop working after short times use. t.v.s, remotes, power strips. anything that spends time with in so many feat of me stops working after a while. 2. if you put a walky talky next to me you get more than static. I know because at the place I worked my boss used to make people think he had a metal detector but it was just a walky talky. nobody else got that kin off reaction out of it. last but not least. 3. if I stand near radios they get better reception.
so what do you think. do I have a magnetic field.
2007-10-15 12:54:56 · 11 answers · asked by fay v 2 in Science & Mathematics ➔ Biology
I don't know what it is but my daughter, very much so, and myself sometimes, but we have both been places where the TV screens will go blank for a few seconds when were there. Also we have had experiences where glass shelving has collapsed while were standing next to it. This happened three times to me in the last 4 years and to my daughter 3 times in the last 2 months. A store clerk tried to blame my daughter of breaking it on purpose although many witnesses said she hadn't touched anything. Also the TV remote deprograms itself in our hands at least 2 times a week, and were talking different remotes.
2007-10-15 13:05:15 · answer #1 · answered by Becky J 4 · 0⤊ 0⤋
Electric and magnetic fields (EMFs) are invisible lines of force that represent the boundary and the intensity that occur between objects with potential difference or voltage (so called electric field) and that surround object with electric currents flow (so called magnetic field). In some case, electric and magnetic field can be defined together as electromagnetic fields or electromagnetic wave. Electric and magnetic fields (EMFs) are invisible lines of force that represent the boundary and the intensity that occur between objects with potential difference or voltage (so called electric field) and that surround object with electric currents flow (so called magnetic field). In some case, electric and magnetic field can be defined together as electromagnetic fields or electromagnetic wave. earth’s magnetic field, sun’s rays, lightning, gamma rays, etc. & man made he most basic difference between ionized and nonionized matter is the ability to carry electric current. This ability is also the reason why virtually all the matter in the universe is—and presumably has always been—magnetized. The presence of the magnetic field has important dynamical consequences since the magnetic force can locally be much greater than the gravitational force. The ability of carrying current, which is the basis for the magnetization, is a property that is still not well known in the case of cosmical plasma. It can be different by many powers of ten from what classical theories predict. Imagine a loop of a conductor, where the loop has a certain area. Then imagine a magnetic field flowing within the loop. Multiply the area of the loop times the strength of the field and you get some sense of the amount of magnetic strength within the loop (you actually have to do a vector multiplication, If the amount of magnetic strength within this loop changes -- either through a change in the magnetic field OR in the area within the loop -- an electromotive force (EMF) is created within the loop. It turns out that EMF, potential difference, and voltage are all pretty much the same thing. The effect of the change of magnetic strength within the loop is to cause a current to be created within the loop. This is pretty much what happens with an electric generator; a loop is forced to spin while within a magnetic field, thus generating a voltage. The potential difference between two points is the measure of the amount of energy necessary to move a unit charge between those two points. If there is a constant electric field (say, between two charged plates), there is a change in energy in moving a charge within that field. The electric field intensity does not change as the charge is moved, but the energy level does; and thus, there is a potential difference. A potential difference CAN arise due to a change in the electric field intensit
2016-04-08 23:47:48 · answer #2 · answered by Anonymous · 0⤊ 0⤋
We ALL do:
Magnetic Field Goal
A Penn State researcher has scored big with his maps of the human head's magnetic fields. These 3-D computer models could eliminate a vexing black hole at the center of some MRI scans.
by Robert Naeye
Not everyone has a magnetic personality, but we all do have magnetic bodies. Spinning hydrogen nuclei in water behave like tiny magnets, and since the human body is mostly water, it’s just chock-full of magnetism. That’s been a boon for radiologists, who take advantage of the body’s magnetic fields in the high-tech diagnostic technique known as magnetic resonance imaging.
During an MRI exam a patient is placed inside a narrow, tube- shaped magnet. The external magnetic field causes the magnetic axes of those spinning hydrogen nuclei to line up in parallel. When a technician transmits a radio signal into the tube, however, the axes tip over. When the signal stops, the nuclei relax back to their original alignment, and in doing so they emit their own signal. Magnetic coils in the scanner read these signals and translate them into images of the body’s internal anatomy. Structures with a lot of hydrogen, such as fat and water-filled cysts, show up as bright areas. Dark areas are those with little hydrogen, such as bone and some cancerous tumors.
2007-10-15 13:05:25 · answer #3 · answered by Anonymous · 0⤊ 0⤋
My sister has never been able to wear a watch for the very same reason! They always stop soon after she gets em! You two must be magnetic!
2007-10-15 12:59:02 · answer #4 · answered by zen 6 · 1⤊ 0⤋
Doesn't everyone generate a magnetic field? I guess yours is just stronger than others...or maybe you have a metal plate in your body somewhere that your parents didn't tell you about. ;)
2007-10-15 13:00:13 · answer #5 · answered by pedestrianx388 2 · 0⤊ 0⤋
Yes. We all have a magnetic field, only some of us have a stronger one.
2007-10-15 12:58:34 · answer #6 · answered by Bebe 2 · 0⤊ 0⤋
ok,if you do have magnetic field,DO NOT stay out in the rain,it attracts lightning or thunder
2007-10-15 12:58:34 · answer #7 · answered by Jameson 2 · 0⤊ 0⤋
no u cannot have an magnetic feild. thats not possible. but u should go to a doctor to see if u have any radioactive substances in your body.
2007-10-15 12:59:02 · answer #8 · answered by Damien H 2 · 0⤊ 1⤋
I don't know the answer, but can you recharge your own batteries?
2007-10-15 12:59:52 · answer #9 · answered by bluebell 7 · 0⤊ 0⤋
uhh, i'd go to a specialist doctor, maybe you got exposed to radiation, but i'd say....im not sure.
2007-10-15 12:57:23 · answer #10 · answered by hiwutzuppplziliketoeatpier0flmao 2 · 0⤊ 1⤋