Penal System essays

Penal System essays Prison inmates, are some of the most "maladjusted" people in society. Most of the inmates have had too little discipline or too much, come from broken homes, and have no self-esteem. They are very insecure and are "at war with themselves as well as with society" (Szumski 20). Most inmates did not learn moral values or learn to follow everyday norms. Also, when most lawbreakers are labeled criminals they enter the phase of secondary deviance. They will admit they are criminals or believe it when they enter the phase of secondary deviance (Doob 171). Next, some believe that if we want to rehabilitate criminals we must do more than just send them to prison. For inezce, we could give them a chance to acquire job skills; which will improve the chances that inmates will become productive citizens upon release. The programs must aim to change those who want to change. Those who are taught to produce useful goods and to be productive are "likely to develop the self-esteem essential to a normal, integrated personality" (Szumski 21). This kind of program would provide skills and habits and "replace the sense of hopelessness" that many inmates have (Szumski 21). Moreover, another technique used to rehabilitate criminals is counseling. There is two types of counseling in general, individual and group counseling. Individual counseling is much more costly than group counseling. The aim of group counseling is to develop positive peer pressure that will influence its members. One idea in many sociology text is that group problem-solving has definite advantages over individual problem-solving. The idea is that a wider variety of solutions can be derived by drawing from the experience of several people with different backgrounds. Also one individuals problem might have already been solved by another group member and can be suggested. ...

Mass Spectrometry - What It Is and How It Works

Mass Spectrometry - What It Is and How It Works Mass spectrometry (MS) is an analytical laboratory technique to separate the components of a sample by their mass  and electrical charge. The instrument used in MS is called mass spectrometer. It produces a mass spectrum that plots the mass-to-charge (m/z) ratio of compounds in a mixture. How a Mass Spectrometer Works The three main parts of a mass spectrometer are the ion source, the mass analyzer, and the detector. Step 1: Ionization The initial sample may be a solid, liquid, or gas. The sample is vaporized into a gas and then ionized by the ion source, usually by losing an electron to become a cation. Even species that normally form anions or dont usually form ions are converted to cations (e.g., halogens like chlorine and noble gases like argon). The ionization chamber is kept in a vacuum so the ions that are produced can progress through the instrument without running into molecules from air. Ionization is from electrons that are produced by heating up a metal coil until it releases electrons. These electrons collide with sample molecules, knocking off one or more electrons. Since it takes more energy to remove more than one electron, most cations produced in the ionization chamber carry a 1 charge. A positive-charged metal plate pushes the sample ions to the next part of the machine. (Note: Many spectrometers work in either negative ion mode or positive ion mode, so its important to know the setting in order to analyze the data.) Step 2: Acceleration In  the mass analyzer, the ions are then accelerated through a potential difference and focused into a beam. The purpose of acceleration is to give all species the same kinetic energy, like starting a race with all runners on the same line. Step 3: Deflection The ion beam passes through a magnetic field which bends the charged stream. Lighter components or components with more ionic charge will deflect in the field more than heavier or less charged components. There are several different types of mass analyzers. A time-of-flight (TOF) analyzer accelerates ions to the same potential and then determines how long is needed for them to hit the detector. If the particles all start with the same charge, the velocity depends on the mass, with lighter components reaching the detector first. Other types of detectors measure not only how much time it takes for a particle to reach the detector, but how much it is deflected by an electric and/or magnetic field, yielding information besides just mass. Step 4: Detection A detector counts the number of ions at different deflections. The data is plotted as a graph or spectrum  of different masses. Detectors work by recording the induced charge or current caused by an ion striking a surface or passing by. Because the signal is very small, an electron multiplier, Faraday cup, or ion-to-photon detector may be used. The signal is greatly amplified to produce a spectrum. Mass Spectrometry Uses MS is used for both qualitative and quantitative chemical analysis. It may be used to identify the elements and isotopes of a sample, to determine the masses of molecules, and as a tool to help identify chemical structures. It can measure sample purity and molar mass. Pros and Cons A big advantage of mass spec over many other techniques is that it is incredibly sensitive (parts per million). It is an excellent tool for identifying unknown components in a sample or confirming their presence. Disadvantages of mass spec are that it isnt very good at identifying hydrocarbons that produce similar ions and its unable to tell optical and geometrical isomers apart. The disadvantages are compensated for by combining MS with other techniques, such as gas chromatography (GC-MS).