In general, line resistance = resistivity * line length / (line cross-sectional area).
Check the unit consistency: for the right-hand side, [ohm-m] * [m] / [m^2] = [ohm].
The resistivity of the material should be given. You can measure it with a large chunk of the material using a four-point probe, simplistically speaking. You can also look up the value online.
Ohms law. R = E/I,
where R= resistance in ohms, E = voltage in volts, and I = current in amperes.
The equation to find resistance in an electrical component can be derived using Ohm's Law: R=V/I (Resistance = Voltage divided by Current)
R=I/V I=current and V=volts
The sum of their resistances.
R=V/I
V: voltage
I: current
RTotal = Summation1 to N (RN)
R=v/i
V=ir
Work force plus effort force
MA= resistance force / effort force = Fr/Fe
resistance force
Resistance force is the force which an effort force must overcome in order to do work on an object via a simple machine. Resistance force, like most other forces, is measured in newtons or in pound-force. Resistance force is used to calculate the work output using the equation: Work output = Resistance force * resistance distance
Resistance force is the force which an effort force must overcome in order to do work.
Work force plus effort force
Force = Pressure x Area
whereR = resistance forceEactual = actual effort force, the force required to turn the wheel.
MA= resistance force / effort force = Fr/Fe
resistance force
Resistance force is the force which an effort force must overcome in order to do work on an object via a simple machine. Resistance force, like most other forces, is measured in newtons or in pound-force. Resistance force is used to calculate the work output using the equation: Work output = Resistance force * resistance distance
Resistance force is the force which an effort force must overcome in order to do work.
The AMA of a machine is calculated using the formula AMA = R / Eactual where R is the resistance force, and Eactual is the actual effort force.
Yes resistance would be a push force.
Gravity is the main resistance force on any aircraft. Wind resistance would be second.
because it is resistant to the led lights and Mercury
The effort required would be proportional to the resistance.