Assuming no air resistance, a human falling from 1000 feet would accelerate at a rate of 32.2 ft/s^2, which is the acceleration due to gravity. The time it would take for the human to reach the ground can be calculated using the free fall equation t = sqrt(2h/g), where h is the height (1000 ft) and g is the acceleration due to gravity (32.2 ft/s^2). This would give a time of approximately 8 seconds.
No, the human body is not made of Ohmic material. Ohmic materials have a linear current-voltage relationship, which is not typically seen in biological systems like the human body. Biological tissues have complex electrical properties that are not accurately described by Ohmic behavior.
What happens is that the resistance of 1100 newton is the MAXIMUM resistance. If a force of 1000 newton is applied, the actual resistance will also be 1000 newton. If a force greater than the maximum force of friction is applied, the object will start to move.
I don't know what the parallel circuit has to do with it. You've onlygiven me a resistor and the current through it.When 0.03A of current passes through a 1,000Ω resistor, the resistordissipates energy at the rate of 0.9 watt.
The current flowing through a solenoid with 1000 turns of wire depends on the resistance of the wire and the voltage applied across the solenoid. Using Ohm's Law (I = V/R), the current would be determined by both the voltage and the total resistance of the wire in the solenoid circuit.
The Pt 1000 sensor is the "big brother" of the Pt 100 sensor. Its nominal resistance at 0°Cis 1000 Ω. Resistance values of the whole series are higher by a factor of 10. The sensor is used in the same way as the Pt 100 sensor. Its dimensions are slightly larger (4 x 5 uninsulated). Thermostats and sensors for Pt 1000 on request.
1000 minus 36 is equal to 964.
750 - 1000 = -250
1000 - 393 = 607
1000 - 101 = 899
1000 - 623 = 377
158,695 minus 1,000 = 157,695
1,000 minus 99 is 901.
1000 - 425 = 575
1000 - 229 = 771
1201
89257 - 1000 = 88257
1746