Question

use the information below to answer the question. understanding electrical shock involves consideration of various factors, including weather conditions, the extent of contact, and the presence of sweating. the outcomes of electrical shock can range from a minor vibration to fatal consequences. the culprit behind electrical damage is usually the electrical current. the resistance of the human body, averaging around 1,000 ohms from hand to hand and 1,100 ohms from foot to hand, plays a critical role in potential shocks. at the threshold of 1 milliamp, individuals typically start to perceive electricity. a minor shock is felt at 5 milliamps, while the range of 6 - 30 milliamps results in a painful shock. as the current intensifies to 50 - 150 milliamps, extreme pain, muscular contractions, respiratory arrest, and even potential death can occur. crossing the threshold of 1,000 milliamps leads to ventricular fibrillation, a condition often fatal. it is important to note that all electrical shocks are 100% avoidable with proper safety measures. what will occur to the typical human from 6 - 30 milliamps of electricity? - respiratory arrest - a painful shock - ventricular fibrillation - a small vibration

Explanation:

The provided text explicitly states that a current range of 6-30 milliamps results in a painful shock, while other options correspond to different current levels: respiratory arrest occurs at 50-150 milliamps, ventricular fibrillation at 1,000+ milliamps, and a small vibration is not associated with this current range.

Answer:

B. a painful shock