You can not find a set amount of electrical resistance because your body is made of many different materials and the amount varies with time
ex: your body may, hypothetically, conduct more current if it is better hydrated
there is no name for the rate of charge transfer, but its inverse is resistance: resistance is how much charge is resisted, so a low resistance material will have a larger rate of change of charge than a high resistance material.
That depends on the total current flow and resistance of body at the time of contact.
Resistance is the ability of the substance to resist the flow of electrons through it. Resistance is directly dependent on the length of the conductor. Area of any conducter is inversely related to its resistance.
the thermistors respond negatively to the temperature and their resistance decreases with the increase in temperature. Since the resistance of thermistors is dependent on the temperature, they can be connected in the electrical circuit to measure the temperature of the body. Read more: http://www.brighthub.com/engineering/mechanical/articles/53511.aspx#ixzz1FeUDkOgw
Yes it is. It isn't a very good one but the water and ions in your body allow currents to flow. If your body was a perfect insulator, nobody would ever get an electric shock.
Your body resistance is high- hard to push electrons through.
The resistance of a human body changes, you can divide it in 3 groups: dry body, semi-wet body (sweat,...) and wet body (in a swimming pool,...) the more wet the body becomes, the lower the resistance.
Yes, steel has a much lower resistance than the human body therefore it will conduct better.
Mass measures the body's resistance to acceleration.
Any load would do or anything that has resistance. Which is pretty much everything you can hook up to a circuit. For example, lightbulb, buzzer, resistor etc.
If there is no air resistance - or if, due to the conditions, air resistance is insignificant - both will fall together. If there is air resistance, usually the lighter body will be more affected by air resistance (in relation to its weight), and therefore fall slower.
The velocity of a moving body is inversely proportional to the resistance it faces. This means that as the resistance increases, the velocity of the body decreases, and vice versa. More resistance leads to slower movement, while less resistance allows for faster movement.
footing resistance is that resistance which could not harm human body while touching tower...and it is calculated by earth resistance tester
There are 2 resistance bands that are used to work the upper body.
Gravity causes the body to accelerate towards the ground, while air resistance opposes this motion by pushing against the body as it falls. The interaction between gravity and air resistance determines the overall speed and trajectory of the falling body.
When the skin is wet, the electrical resistance of the human body decreases significantly, making it easier for electricity to flow through the body. This can increase the risk of electric shock and serious injury or even death. Wet skin provides a more conductive path for electricity to travel, bypassing the body's natural resistance mechanisms.
Yes.