Types
of Thermometers
Food thermometers come in several types and styles and range
in level of technology and price.
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Liquid-filled Thermometers,
also called "spirit-filled"
or "liquid in glass" thermometers, are the oldest type of thermometers
used in home kitchens. These thermometers are designed to be placed
in a food before the food goes in the oven. As the internal temperature
of the food increases, the colored liquid inside the thermometer
expands and rises to indicate the temperature on a scale. Some
liquid-filled thermometers can be calibrated by carefully moving
the glass stem within the holder.
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Bimetallic-coil
Thermometers contain a coil in the probe made of two different
metals with different rates of expansion that are bonded together.
This coil, which is connected to the temperature indicator, expands
when heated. This thermometer senses temperature from its tip
up the stem for 2 to 2 1/2 inches.
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The
resulting temperature is an average of the food-contact temperatures
along the sensing section (in other words, if the temperature
at the tip of the probe is 170° F, and the temperature 2 inches
above the tip is 180° F, the thermometer will register about
175° F). These thermometers come in both oven-safe and "instant-read"
forms and are read from a dial. Many of the dial thermometers
can be calibrated.
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Oven-safe
Bimetallic-coil Thermometers: This type of thermometer
is familiar to most consumers. This is the traditional "meat"
thermometer designed to be placed in a food before it goes into
the oven. It is generally used for large items such as a roast
or turkey. These thermometers show the temperature with a dial.
They can take as long as 1 to 2 minutes to register the correct
temperature. The bimetal stem thermometer can accurately measure
the temperature of relatively thick or deep foods such as beef
roasts and foods in a stockpot. However, since the temperature-sensing
coil on the probe is between 2 and 2 1/2 inches long, and this
probe is relatively thick, this instrument is not appropriate
to measure the temperature of any food less than 3 inches thick.
This thermometer is convenient because a quick glance (either
through the oven window or by opening the oven door just a crack)
will show how the food is progressing.
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There
is concern, however, that because heat conducts along the stem's
metal surface faster than through the food, the food in contact
with the thermometer tip will be hotter than the food a short
distance to the side. This is the "potato nail effect." To remedy
this, the temperature should be taken in a second and even third
place to verify the temperature of the food. Each time the thermometer
is inserted into a food let the temperature equilibrate, or come
to temperature, at least 1 minute before reading the temperature.
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Food
thermometers come in several types and styles
and range in level of technology and price.
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Bimetallic-coil "Instant Read" Thermometers:
These thermometers are designed to quickly measure the temperature
and cannot be left in the oven while the food is cooking. About
15 to 20 seconds are required for the temperature to be accurately
displayed on a dial. The thermometer is inserted in the food only
while assessing the temperature. Once the temperature is determined,
the thermometer must be removed. It is important to wash the probe
with hot, soapy water after each insertion to prevent cross-contamination.
For accurate temperature measurement the probe of the bimetallic-coil
thermometer must be inserted the full length of the sensing device
(usually 2-3 inches). If measuring the temperature of a thin food,
such as a hamburger patty or boneless chicken breast, the probe
should be inserted sideways with the sensing device in the very
center of the patty.
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Bimetallic-coil
thermometers measure temperature by averaging the temperatures
along the metallic coil area. Inserting the thermometer through
the center takes advantage of this by averaging the temperature
of the center of the food.
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Thermistors:
Thermistor-style thermometers use a resistor (a ceramic semiconductor
bonded in the tip with temperature-sensitive epoxy) to measure
temperature. The probe diameter is approximately 1/8" thick and
takes roughly 10 seconds to register a temperature on a digital
display. Since the semiconductor is in the tip, thermistors can
measure temperature in thin foods.
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As with the bimetal instant read thermometers, thermistors should
be placed in foods towards the end of cooking time to check for
final cooking temperatures. Because the center of a food is usually
cooler than the outer surface, place the tip (where the semiconductor
is located) in the center of the thickest part of the food.
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Thermocouple:
Thermocouple thermometers are the fastest reading of all thermometers.
They can show a final temperature in seconds on a digital display.
They have very small tips and can accurately measure the temperature
of very thin foods, depending on the size of the probes. (Thermocouples
used in scientific laboratories use probes similar to hypodermic
needles, while other probes may have a thickness of 1/16 of an
inch.)
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Thermocouples measure temperature at the junction of two fine
wires located in the tips of the probes. Since thermocouple thermometers
respond so rapidly, the temperature can be easily read in a number
of locations to ensure that the food is thoroughly cooked. This
type of thermometer is used primarily in retail or foodservice
kitchens, but consumer models are now being marketed. Thermocouples
can be calibrated for accuracy
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It
is important to wash the probe after each use
with hot, soapy water before reinserting it into a food.
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Candy/Jelly/Deep Fry Thermometers:
These thermometers will measure a temperature ranging from 100°
F to 400° F. They are used to measure the extra-high temperatures
required of candy and jelly making, as well as frying with hot oil.
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Refrigerator/Freezer
Thermometers:
For safety, it is important to verify the temperature of refrigerators
and freezers. Refrigerators should maintain a temperature no higher
than 40° F. Food will hold its top quality for the longest
possible time when the freezer maintains 0° F.
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An appliance thermometer can be kept in the refrigerator and freezer
to monitor the temperature. This can be critical in the event
of a power outage. The food will be safe when the power goes back
on if the refrigerator is still at 41° F and the freezer is
still colder than 0° F. Bimetallic-coil thermometers are specially
designed to provide accuracy at cold temperatures.
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Oven
Thermometers:
An oven thermometer can be left in the oven to verify that the
oven is heating to the desired temperatures. These bimetallic-coil
thermometers can measure temperatures from 100° F to 600°
F.
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Other
Temperature Indicators
Pop-up
Timers:
Commonly used in turkeys and roasting chickens, the "pop-up" temperature
device is constructed from a food-approved nylon. Inside there
is a firing material and a stainless steel spring. The firing
material may be an organic salt compound or an alloy of metals
commonly used in other thermosensing devices. The tip of the stem
is imbedded in this hardened material until it melts, releasing
the stem, which is then "popped up" by means of the spring. This
indicates that the food has reached the final temperature for
safety and doneness. Pop-up thermometers have been produced since
1965 and are reliable to within 1-2° F if accurately placed
in the product. It is also suggested that the temperature be checked
with a conventional thermometer in several places. These can also
be found for sale as single-use items.
T-Stick
Disposable Thermometers:
A disposable, single use, cardboard thermometer that indicates
160° F (+/- 1° F). At 160° F or higher, a white material
inside the plastic coated tip becomes clear. As a result, the
tip changes from a white to black indicating a safe temperature
has been reached. The T-Stick is made from materials accepted
by the FDA for contact with food.
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Using
a thermometer is the only reliable way to ensure safety
and to determine the "doneness of most foods.
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Thermometers
| TYPES |
SPEED |
PLACEMENT |
USAGE
CONSIDERATIONS |
| Liquid-filled |
1-2
minutes |
At
least 2 inches deep in the thickest part of the food. |
- Used
in roasts, casseroles and soups
- Can
be placed in a food while it is cooking
- Cannot
measure thin foods
- Calibration
cannot be adjusted
- Possible
breakage while in food
- Heat
conduction of metal shield can cause false high reading
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| Bimetal
(oversafe) |
1-2
minutes |
2-2
1/2 inches deep in the thickest part of the food. |
- Can
be used in roasts, casseroles and soups
- Can
be placed in a food while it is cooking
- Not
appropriate for thin foods
- Heat
conduction of metal stem can cause false high reading
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| Bimetal
(instant read) |
15-20
seconds |
2-2
1/2 inches deep in the thickest part of the food. |
- Can
be used in roasts, casseroles and soups
- Used
to check the internal temperature of a food at the end
of cooking time
- Can
be calibrated
- Cannot
measure thin foods unless inserted sideways
- Cannot
be used in an oven while food is cooking
- Temperature
is averaged along 2-3 inch probe
- Readily
available in stores
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| Thermistor
(digital) |
10
seconds |
At
least 1/2 inch deep in a food |
- Gives
faster reading
- Measures
temperature in thin foods
- Digital
face easy to read
- Cannot
be used in an oven while food is cooking
- Available
in "kitchen" stores
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| Thermocouple
(digital) |
5
seconds |
1/2
inch deep or deeper, as needed |
- Fastest
- Can
quickly measure even the thinnest foods
- Digital
face easy to read
- Can
be calibrated
- More
costly, may be difficult for consumers to find in stores.
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Doneness
and Safety
Most pathogenic bacteria are destroyed between 140° F and
160° F. However, for best quality, meat and poultry require
various temperatures for "doneness."
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Recommended
Internal Temperatures
| PRODUCT |
DEGREES
FAHRENHEIT |
| Eggs
and Egg Dishes |
|
Eggs
|
160° |
Egg
Dishes
|
160° |
| Ground
Meat and Poultry Mixtures |
|
Turkey,
chicken (including patties)
|
165° |
Veal,
beef, lamb, pork (including patties)
|
160° |
| Fresh
Beef |
|
Medium
rare
|
145° |
Medium
|
160° |
Well
done
|
170°
|
| Fresh
Lamb |
|
Medium
rare
|
145° |
Medium
|
160° |
Well
done
|
170°
|
| Fresh
Pork |
|
Medium
|
160° |
Well
done
|
170°
|
| Poultry |
|
Chicken,
whole
|
180° |
Turkey,
whole
|
180° |
Poultry
breasts, roasts
|
170° |
Poultry
thighs, wings
|
180° |
Stuffing
|
165° |
Ducks
and goose
|
180° |
| Ham |
|
Fresh
(raw)
|
160°
|
Precooked
(to reheat)
|
140° |
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Using
the Thermometer
Most thermometers available will give an accurate reading within
2 to 4° F. The reading will only be helpful, however, if the
thermometer is placed in the proper location in the product. If
not inserted correctly, or if the thermometer is placed in the
wrong area, the reading will not accurately reflect the internal
temperature of the product. In general, the thermometer should
be placed in the thickest part of the food, away from bone, fat,
or gristle. The thermometer should be sanitized before and after
each use.
Check
the Manufacturer's Instructions First
Before using a food thermometer, read the manufacturer's instructions.
The instructions should tell how far the thermometer must be inserted
in a food to give an accurate reading. Most thermometers also
come with instructions on how to recalibrate the thermometer (see
below for more information about calibrating a thermometer). If
instructions are not available, check the stem of the thermometer
for an indentation, or "dimple," that shows one end of the location
of the sensing device. Most digital thermometers will read the
temperature in a small area of the tip. Dial types must penetrate
about two to three inches into the food.
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Where
to Place the Thermometer
Meat
When taking the temperature of beef, pork, or lamb roasts, the
thermometer should be placed midway in the roast, avoiding the
bone. When cooking hamburgers, steaks, or chops, insert a thermistor
or thermocouple into the thickest part, away from bone, fat, or
gristle. If using a dial bimetal thermometer, see thin foods below.
When the food being cooked is irregularly shaped, such as may
be the case with a beef roast, check the temperature in several
places.
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Poultry
When cooking whole poultry, the thermometer should be inserted
into the thickest part of the thigh. If stuffed, the center of
the stuffing should be checked after the thigh reads 165°
F for 15 seconds (stuffing must reach 165° F for 15 seconds).
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If cooking poultry parts, insert thermometer into the thickest
area, avoiding the bone. The thermometer may be inserted sideways
if necessary. When the food being cooked is irregularly shaped,
the temperature should be checked in several places.
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Thin Foods
When measuring the temperature of a thin food, such as
a hamburger patty or chops, a thermistor or thermocouple thermometer
should be used, if possible. A dial bimetallic-coil thermometer
averages the internal temperature along the length of the sensor
within its probe. Thin foods usually cannot accommodate the 2-inch
probe if it is inserted from top to bottom and, thus, it will
not give an accurate reading.
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For
thin foods, the bimetal thermometer may be inserted sideways so
that it will average the temperature in the center of the food.
To avoid burning fingers, it may be helpful to remove the food
from the heat source (if cooking on a grill or in a frying pan)
and insert the thermometer sideways after placing the item on
a clean spatula or plate.
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Combination Dishes
For casseroles and other combination dishes, place the thermometer
into the thickest portion of the food or the center of the dish.
Egg dishes, and dishes made using ground meat and poultry, should
be checked in several places. Calibrating a Thermometer There
are two ways to check the accuracy of a food thermometer. One
method uses ice water, the other uses boiling water. Many thermometers
have a calibration nut under the dial that can be adjusted. Check
the package for instructions.
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Calibrating a Thermometer
There are two ways to check the accuracy of a food thermometer.
One method uses ice water, the other uses boiling water. Many
thermometers have a calibration nut under the dial that can be
adjusted. Check the package for instructions.
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Ice Water
To use the ice water method, fill a large glass with finely crushed
ice, add clean tap water to the top of the ice, and stir well.
Immerse the thermometer stem a minimum of 2 inches into the mixture,
touching neither the sides nor the bottom of the glass. (For ease
in handling, the stem of the thermometer can be placed through
the clip section of the stem sheath and, holding the sheath horizontally,
lowered into the water.) Without removing the stem from the ice,
hold the adjusting nut under the head of the thermometer with
a suitable tool and turn head so pointer reads 32° F. Allow
a minimum of 30 seconds before adjusting.
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Boiling Water
To use the boiling water method, bring a deep pan of clean
tap water to a full rolling boil. Immerse the stem of a thermometer
in boiling water a minimum of 2 inches and wait at least 30 seconds.
(For ease in handling, the stem of the thermometer can be placed
through the clip section of the stem sheath and, holding the sheath
horizontally, lowered into the boiling water.) Without removing
the stem from the pan, hold the adjusting nut under the head of
the thermometer with a suitable tool and turn head so the thermometer
reads 212° F.
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For
true accuracy, distilled water must be used and the atmospheric
pressure must be one atmosphere (29.921 inches of mercury). Using
tap water in unknown atmospheric conditions would probably not
measure water boiling at 212° F. Most likely it would boil
at least 2° F and perhaps as much as 5° F lower.
Even if the thermometer cannot be calibrated, it should still
be checked for accuracy using either method. Any inaccuracies
can be taken into consideration when using, or the thermometer
can be replaced. For example, if the thermometer reads 214°
F in boiling water, subtract 2 degrees from the temperature registered
when taking a reading in food.
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Information and graphics used with permission of USDA Food Safety
and Inspection Service.
University
of Rhode Island
Cooperative Extension Food Safety Education
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