E dc dc e dc dc eee cf eee fd edc dc thants the chorus
Check the output voltage and mA capacity on the nameplate of the adaptor. The adapter will be useful on devices at that DC voltage and up to the mA capacity of the adaptor E.g. the nameplate may read Input: AC120 volts 5 watts. Output: DC 12 volts 200 mA.
baby g is different from a g shock because of the design that the watch has. they might have totally different colors than regular g shock watches but the regular g shock watches have a wider selection to choose from.
dc Talk's first album was dc Talk. It was released in 1989.
State of Shock - band - was created in 1999.
Yeh buddy! A dc shock is a good shot. An ac shock causes muscles to alternate. Depending on the voltages from either it can be an enlightning experience.
either one
Because the battery is only putting out a little over 12 volts DC. It takes allot of voltage DC to actually shock you. Plus you are not grounded very good.
keep them calm and dont ask them about what caused the shock
DC is more dangerous because its magnitude doen't goes zero instantly after every half cycle as in case of AC .
"legend says" that you can feel your hairs going up when you are aout to be hit with an electrical shock, i dont think you can ever feel the shock itself
no actually dc current is more dangerous than ac because dc is a direct current and has no current zero condition ,which is very dangerous and do not leave us if we get shock while ac current leave us when we get shock
In DC circuits, the current flows in one direction, causing muscles to contract and resulting in a repulsive shock feeling. In AC circuits, the current alternates direction, causing muscles to both contract and relax rapidly, leading to an alternating sensation that some may perceive as attractive or tingling.
you dont
You can't feel a shock because there is a insulator which insulates the flow of electricity. That's why you can't feel a shock when you turn off a switch.
DC is generally considered safer than AC in terms of electrical systems because DC does not cause the same level of electric shock and is less likely to start fires.
An automated external defibrillator (AED) uses direct current (DC) to deliver a shock to the heart. The defibrillator generates a brief but powerful DC shock to help restore a normal heart rhythm in cases of cardiac arrest. This electrical energy is critical for interrupting chaotic heart rhythms and allowing the heart to resume its normal function.