Simply, and with all other things being equal, DC of a given voltage level is considered to be more dangerous, because AC voltage passes through zero twice per cycle and possibly allows release of the grasp on a conductor.what is the most danger effect of electrocution, AC or DC?
Simply, and with all other things being equal, DC of a given voltage level is considered to be more dangerous, because AC voltage passes through zero twice per cycle and possibly allows release of the grasp on a conductor.
Yeah, but don't the human muscles respond differently to each?Isn't what we call '120 volts' AC the power equivalent of 120 VDC?
sir., can i have some more explanation for this matter. thanks and god bless.Simply, and with all other things being equal, DC of a given voltage level is considered to be more dangerous, because AC voltage passes through zero twice per cycle and possibly allows release of the grasp on a conductor.
what do you need specifically ?
The links first sentence: "An electrical riser diagram (also known as a "one-line" diagram)...". Oh, really.......
Riser diagrams or block diagrams show the connections between all components of the electrical distribution system. It is not intended to show all connected loads, nor is it to show any components, such as fuses. It supposed to show the panels or other distribution centers designation, size and rating and maybe the size of the interconnecting feeders. It's main benefit to be able to show the interrelationship of widespread distribution systems and to be able to quickly identify all the upstream of a failure. It is especially useful in high-rise building distribution and to the best of my knowledge its name derived from it. (Multi-level, multi-tenant occupancy.)
Isn't what we call '120 volts' AC the power equivalent of 120 VDC?
http://www.control.com/thread/1026220674sir., can i have some more explanation for this matter.