To convert 4.5 amps to milliamps (mA), you multiply by 1000 since 1 amp is equal to 1000 milliamps. Therefore, 4.5 amps is equal to 4500 milliamps.
Any current higher than 10 milliamps can be dangerous if it passes through the human body, potentially leading to cardiac arrest or other serious injuries. It is important to handle electrical equipment with caution to prevent accidental shocks.
1 amp = 1000 milliamps so 1700 milliamps = 1.7 amps.
There are 0.075 amps in 75 milliamps.
The dangerous amount of current is not in the amp range but in the milliamp range as per the following. One amp is equal to 1000 milliampsMilliamps are dangerousLess than 1/2 milliamp no sensation1/2 to 2 milliamps Threshold of perception2 to 10 milliamps muscular contraction5 to 25 milliamps painful shock (may not be able to let go)Over 25 milliamps Could be violent muscular contraction50 to 100 milliamps Ventricular fibrillationover 100 paralysis of breathing.
Its only takes 100 milliamps to stop your heart. A USB port on a computer runs at 100 milliamps.
It will not take that much;Less than 1/2 milliamp no sensation1/2 to 2 milliamps Threshold of perception2 to 10 milliamps muscular contraction5 to 25 milliamps painful shock (may not be able to let go)Over 25 milliamps Could be violent muscular contraction50 to 100 milliamps Ventricular fibrillationover 100 paralysis of breathing.
To convert 4.5 amps to milliamps (mA), you multiply by 1000 since 1 amp is equal to 1000 milliamps. Therefore, 4.5 amps is equal to 4500 milliamps.
Milliamp are dangerousLess than 1/2 milliamp no sensation1/2 to 2 milliamps Threshold of perception2 to 10 milliamps muscular contraction5 to 25 milliamps painful shock (may not be able to let go)Over 25 milliamps Could be violent muscular contraction50 to 100 milliamps Ventricular fibrillationover 100 paralysis of breathing.
Milliamps are dangerous Less than 1/2 milliamp no sensation1/2 to 2 milliamps Threshold of perception2 to 10 milliamps muscular contraction5 to 25 milliamps painful shock (may not be able to let go)Over 25 milliamps Could be violent muscular contraction50 to 100 milliamps Ventricular fibrillationover 100 paralysis of breathing. possibily 1-2Amp/s can make your heart stop. and kill you. Not the amount of voltage
In your question .2 amps is equal to 200 mAMilliamp are dangerousLess than 1/2 milliamp no sensation1/2 to 2 milliamps Threshold of perception2 to 10 milliamps muscular contraction5 to 25 milliamps painful shock (may not be able to let go)Over 25 milliamps Could be violent muscular contraction50 to 100 milliamps Ventricular fibrillationover 100 paralysis of breathing.
In your question .2 amps is equal to 200 mAMilliamp are dangerousLess than 1/2 milliamp no sensation1/2 to 2 milliamps Threshold of perception2 to 10 milliamps muscular contraction5 to 25 milliamps painful shock (may not be able to let go)Over 25 milliamps Could be violent muscular contraction50 to 100 milliamps Ventricular fibrillationover 100 paralysis of breathing.
No. It is amperage that does the damage. See the following list Keep in mind 1000 milliamps equals 1 amp of current. Less than 1/2 milliamp no sensation 1/2 to 2 milliamps Threshold of perception 2 to 10 milliamps Muscular contraction 5 to 25 milliamps Painful shock (may not be able to let go) Over 25 milliamps Could be violent muscular contraction 50 to 100 milliamps Ventricular fibrillation over 100 Paralysis of breathing.
Approximately 10 miliamps is enough to be fatal to a human. Less than 1/2 milliamp no sensation, 1/2 to 2 milliamps threshold of perception, 2 to 10 milliamps muscular contraction, 5 to 25 milliamps painful shock (may not be able to let go), over 25 milliamps could be violent muscular contraction, 50 to 100 milliamps ventricular fibrillation and over 100 paralysis of breathing.
It is not so much the voltage that kills it is the amperage. The following list is the tolerances that the body can stand. Keep in mind that 1 amp is equal to 1000 milliamps. Less than 1/2 milliamp no sensation 1/2 to 2 milliamps Threshold of perception 2 to 10 milliamps muscular contraction 5 to 25 milliamps painful shock (may not be able to let go) Over 25 milliamps Could be violent muscular contraction 50 to 100 milliamps Ventricular fibrillation over 100 paralysis of breathing.
In most instances the answer will be no. Fusing of equipment is usually in the range from 250 milliamps (1/4 amp) up to what ever amperage fuse is needed to protect the wire feeding the load. The following list will explain why.Milliamp dangerousLess than 1/2 milliamp no sensation1/2 to 2 milliamps Threshold of perception2 to 10 milliamps muscular contraction5 to 25 milliamps painful shock (may not be able to let go)Over 25 milliamps Could be violent muscular contraction50 to 100 milliamps Ventricular fibrillationover 100 paralysis of breathing.
An electrical shock is an electrical current that flows through the body. The following list is the tolerances that the body can stand. Less than 1/2 milliamp no sensation 1/2 to 2 milliamps Threshold of perception 2 to 10 milliamps muscular contraction 5 to 25 milliamps painful shock (may not be able to let go) Over 25 milliamps Could be violent muscular contraction 50 to 100 milliamps Ventricular fibrillation over 100 paralysis of breathing.