Antibiotic resistance occurs when microorganisms that cause diseases become resilient and can generate ways to resist the antibiotics. This makes the antibiotics lose the ability to fight bacteria and other foreign invaders.
The combination of both rapid growth rates and clever adaptation mechanisms make antibiotic resistance an issue that can arise quickly. Antibiotic resistance is when infectious bacteria adapt and become immune to the harmful effects of administered drugs.
Air resistance is caused by friction between a moving object and the air molecules surrounding it. The energy required to push these molecules out of the way diminishes the object's kinetic energy and correspondingly reduces its velocity.
Types of antibiotics include penicillins, fluoroquinolones and cephalosporins, according to eMedicineHealth. Sulfonamides, including co-trimoxazole and trimethoprim, and macrolides, which include erythromycin, azithromycin and clarithromycin, are other types of antibiot...
Antibiotics fall into several main classes, including penicillins, such as amoxicillin; cephalosporins, such as Keflex; macrolides, such as Biaxin and Zithromax; and fluroquinolones, such as Cipro and Levaquin, notes eMedicineHealth. Sulfonamides, such as Bactrim, and t...
Some antiobiotic drug brands include Amoxil, Clarforan, Silvadene and Neosporin, according to Drugs.com. Generic antibiotics include amoxicillin, penicillin, ciprofloxacin and silver sulfadiazine. Antibiotics treat a specific type of bacteria and typically cannot treat ...
Air resistance is the friction that objects experience as they move through an atmosphere made up of air. Air is made up of relatively widely spaced particles in the form of molecules and atoms. These minute particles, en masse, must be pushed against for any object to ...