In a courtroom, the information from a digital alcohol detector can be very convincing. Unlike the data from a detector that has a rather simple dial, the digital alcohol detector can provide a law enforcement officer with an exact figure. The exactness of that figure should leave no question as to the amount of alcohol in the blood of the tested individual. It might, however, leave the intoxicated driver with a few questions. The driver might wonder why his or her blood had managed to hold so much alcohol over such a short interval of time. The following article offers a possible answer.The digital alcohol detector does not promise to uncover a possible
space alien with alcohol-based blood. The digital alcohol detector provides law enforcement officers with a way to test a driver’s blood alcohol concentration (BAC). Using such a test, those officers can discover whether or not the person behind the wheel of a vehicle has chosen to put other drivers at risk.
A driver’s blood alcohol concentration can be measured using either a breath or a urine sample. The blood alcohol concentration indicates the percent of alcohol in the driver’s blood. Most states consider a driver with a BAC of 0.08% to be driving while intoxicated. An intoxicated driver poses a risk to all other drivers.
Such a driver is driving while under the influence of a larger than acceptable BAC. Such a driver has lost the ability to control his or her speech, balance and emotions. The loss of such functions usually occurs after immoderate drinking. Yet not every driver can assume that a moderate consumption of alcohol should be viewed as a guarantee a low BAC.
That fact brings up the title of this article: “The Information Hidden from an Alcohol Detector.” Each person who consumes alcohol will have an individualized response to that alcohol. The exact nature of that response can not be ascertained from the reading on a dogital alcohol detector.
The response is determined in part by the rate of the alcohol consumption. The rate of the alcohol consumption can affect the BAC. A person’s liver metabolizes about one-half ounce of alcohol per hour. When someone starts chugging beer, then the liver can not metabolize all that alcohol. As a result, the beer-drinkers BAC rises rapidly.
The nature of the alcohol consumed also affects the BAC. Hard liquor enters the blood stream more quickly than beer. Warm alcohol will show up in a drinker’s blood faster than cold alcohol.
A drinker’s gender can have an effect on the drinker’s response to the consumed alcohol. The body contains an enzyme that is able to neutralize alcohol. Women, however, have less of that enzyme than do men.
The health of a drinker can affect his or her response to alcohol. The BAC rises rapidly in a drinker who is taking aspirin, acetaminiophen or an ulcer medication. A patient on Dilantin might expect a quick response to alcohol. The combination of an antibiotic and alcohol can also introduce problems.
The taking of an antibiotic can set the stage for unwanted, even dangerous side effects. The nature of those side effects might be exacerbated by the consumption of alcohol. Yet the exact nature of those side effects will not show up on a digital alcohol detector.
That is why health professionals caution against the combined use of antibiotics and alcohol.
space alien with alcohol-based blood. The digital alcohol detector provides law enforcement officers with a way to test a driver’s blood alcohol concentration (BAC). Using such a test, those officers can discover whether or not the person behind the wheel of a vehicle has chosen to put other drivers at risk.
A driver’s blood alcohol concentration can be measured using either a breath or a urine sample. The blood alcohol concentration indicates the percent of alcohol in the driver’s blood. Most states consider a driver with a BAC of 0.08% to be driving while intoxicated. An intoxicated driver poses a risk to all other drivers.
Such a driver is driving while under the influence of a larger than acceptable BAC. Such a driver has lost the ability to control his or her speech, balance and emotions. The loss of such functions usually occurs after immoderate drinking. Yet not every driver can assume that a moderate consumption of alcohol should be viewed as a guarantee a low BAC.
That fact brings up the title of this article: “The Information Hidden from an Alcohol Detector.” Each person who consumes alcohol will have an individualized response to that alcohol. The exact nature of that response can not be ascertained from the reading on a dogital alcohol detector.
The response is determined in part by the rate of the alcohol consumption. The rate of the alcohol consumption can affect the BAC. A person’s liver metabolizes about one-half ounce of alcohol per hour. When someone starts chugging beer, then the liver can not metabolize all that alcohol. As a result, the beer-drinkers BAC rises rapidly.
The nature of the alcohol consumed also affects the BAC. Hard liquor enters the blood stream more quickly than beer. Warm alcohol will show up in a drinker’s blood faster than cold alcohol.
A drinker’s gender can have an effect on the drinker’s response to the consumed alcohol. The body contains an enzyme that is able to neutralize alcohol. Women, however, have less of that enzyme than do men.
The health of a drinker can affect his or her response to alcohol. The BAC rises rapidly in a drinker who is taking aspirin, acetaminiophen or an ulcer medication. A patient on Dilantin might expect a quick response to alcohol. The combination of an antibiotic and alcohol can also introduce problems.
The taking of an antibiotic can set the stage for unwanted, even dangerous side effects. The nature of those side effects might be exacerbated by the consumption of alcohol. Yet the exact nature of those side effects will not show up on a digital alcohol detector.
That is why health professionals caution against the combined use of antibiotics and alcohol.
