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ManualsBrandsFisher ManualsFitness & SportsGOLD BUG METAL DETECTOR

HOT ROCKS

A hot rock is a rock which causes the metal detector to sound off because the

rock contains iron minerals. They come in two basic types.

Negative hot rocks (also called cold rocks) are usually magnetite or

contain magnetite, and give a negative response because their ground

balance value is a higher number than the soil they are found in. They

tend to be dark in color, usually black, and usually heavy. In some cases

they will have rust stains. They are usually attracted to a magnet, and for

this reason gold prospectors always carry a magnet -- the ultimate

ferrous/nonferrous discriminator. In All Metal Mode, negative hot rocks

produce a

boing sound rather than the zip sound of a metallic target;

recognize the difference and you will learn to ignore them. As the

searchcoil passes over a hot rock, this

boing sound, or negative response,

is quite distinctive. To hear this response, you must be properly Ground

Balanced and in All Metal Mode with an audible threshold hum. First, as

the center of the searchcoil passes over the negative hot rock, the

detector will go quite; the threshold hum momentarily silences. Then,

passing beyond the negative hot rock, you hear the

boing sound. As you

pass the searchcoil back and forth over a negative hot rock, it will be

impossible to pinpoint and will seem as if it

moves around.

Positive hot rocks are iron-bearing rocks which have been oxidized by

natural weathering processes so that their GND BAL value is a number

lower than the soil they are found in. They are often small, right on the

surface, sound just like a gold nugget, and are common in many gold

prospecting areas. They are usually, but not always, drawn to a magnet.

They are most often reddish in color but are often black, brown, or yellow.

On relic hunting sites, red clay bricks and rocks which have lined a fireplace

or a campfire will often be

hot rocks. The discriminator will usually eliminate

them without difficulty if widely scattered, but if there is a large concentration

of them, the discriminator may not quiet them all. In that case, you can

revert to the rule of thumb -- “don’t dig non-repeatable signals.”

Remember to always carry a magnet to help discriminate gold from hot rocks

and iron.

• Gold will not

be attracted to a magnet.

• Pieces of iron will always

be attracted to a magnet.

• Negative hot rocks will almost always

be attracted to a magnet.

• Positive hot rocks will usually

be attracted to a magnet.

2. Trash

If searching for coins, you want to ignore items like aluminum foil, nails and

pull-tabs. These undesirable items are generally identified toward the lower

end of the 0-100 scale. You can listen to the sounds of all objects detected,

and decide on what you want to dig up. Or you can eliminate unwanted

metals from detection by using the DISCRIMINATION feature.

3. Identifying Buried Objects

Different types of metals are classified along the arc at the top of the screen

on a 0-100 scale from left to right. A 2-digit numerical reading is also

provided in the middle of the display for more precise Target Identification

in Discrimination Mode.

4. Size and Depth of Buried Objects

When using the detector in the motion DISC Mode, the relative depth of an

object is displayed to the left of the display over the SIGNAL strength

indicator. A more accurate depth reading is available using PINPOINT.

Pinpoint displays target depth, in inches. The Pinpoint Mode does not

require the searchcoil to be in motion to detect metals. The ability to hold

the searchcoil motionless over the target also aids in tracing an outline of

the buried object, or in pinpointing the exact location of the object using

techniques described in the pinpointing section of this manual.

5. Electromagnetic Interference (EMI)

Electromagnetic interference (EMI), can cause a metal detector to chatter

spontaneously, to lose sensitivity for no apparent reason, or to cause a

periodic wobbly audio sound. Common sources of EMI include power

lines, electronic communication equipment such as cellphones, fluorescent

lamps, military electronics such as radar, other metal detectors and

computer equipment.

Your first line of defense against EMI is to reduce the

Gain and/or

Threshold. In areas with heavy EMI, operating at reduced sensitivity levels

will result in the loss of some depth, but at least the metal detector will be

usable.

See the 2-page section on ELECTROMAGNETIC INTERFERENCE (EMI)

for a more thorough explanation of EMI and how to manage it

THE BASICS OF METAL DETECTING