when you put your ac directly on your dick then it is proportional. not a ac voltage
Decrease, because W = I (current) x V (voltage), if one increases, the other decreases in proportion to the increase of the other. Ohm's Law states current is directly proportional to the applied voltage and inversely proportional to the resistance of the circuit.
It means that when one increases, the other increases as well. Also, it implies that this increase is proportional - if the voltage is doubled, the current will also double. Note 1: Normally, the voltage is considered the independent quantity; that's the quantity you can control directly. And if the voltage changes, so will the current. Note 2: In simple circuits, such as those that only have a voltage source and resistors, the relation will be a direct proportion. With electronic components, such as a transistor, the relationships can be more complicated.
Not necessarily. In a simple circuit V=IR, so if the resistance in a circuit remains constant, then voltage and current are directly proportional, so an increase in one will increase the other. If you were to change resistance and keep voltage constant, then the current would be inversely proportional to resistance, so as resistance went up, current would go down.
If the resistance of the load is kept more-or-less constant, then the current also becomes larger. On the other hand, if the power of the load is kept more-or-less constant, then the current becomes smaller.
An Automatic Voltage Regulator (AVR) is a special piece of electrical equipment which is designed to maintain its output voltage at an almost constant value even though:the input voltage supplied to it may vary considerably within the voltage range for which the AVR was designed andthe amperage or current drawn by the load it is serving may vary considerably within the amperage range for which the AVR was designed.
voltage is inversly proportional to speed speed and current are directly proportional to each other but voltage and current are directly proportional to each other..
Decrease, because W = I (current) x V (voltage), if one increases, the other decreases in proportion to the increase of the other. Ohm's Law states current is directly proportional to the applied voltage and inversely proportional to the resistance of the circuit.
Other things being equal, it is directly proportional to the temperature. It is also directly proportional to the amount of gas.Other things being equal, it is directly proportional to the temperature. It is also directly proportional to the amount of gas.Other things being equal, it is directly proportional to the temperature. It is also directly proportional to the amount of gas.Other things being equal, it is directly proportional to the temperature. It is also directly proportional to the amount of gas.
In a directly proportional relationship, as one variable increases, the other variable also increases at a constant rate. In an inverse proportional relationship, as one variable increases, the other variable decreases at a constant rate.
Time and distance traveled are directly proportional only if the velocity of the object in question is constant.
-- If doubling one quantity causes the other one to also double, the two quantitiesare directly proportional. Their ratio is always the same.-- If doubling one quantity causes the other one to drop by half, the two quantitiesare inversely proportional. Thier product is always the same.
Ohm's Law states that the current through the conductor is directly proportional to the potential difference between its ends provided its temperature and other physical conditions remain constant
Two numbers or variables are directly proportional if their ratio is constant. Put another way, two numbers or variables are directly proportional if one of them is a constant multiple of the other. a is proportional to b ( a ∝ b ) if a/b= constant or equivalently a=b x (constant) When to numbers or variables are directly proportional, if one doubles the other doubles, if one is halved the other is halved, etc.
basically there are 2 component of ohm law 1 is current (I) and other is voltage(v).Current and voltage are directly proportional to each other. If one increases other also increases and vise versa .this give a new Quantity resistance(R). V=IR R=V/I
Voltage and Amperage are not directly dependent upon each other. Electricity is like water in the way that it "flows". Voltage is analagous to water pressure (like PSI), whereas amperage is analagous to the amount of water actually flowing (like gallons-per-minute). As voltage increases, amperage typically decreases and vice versa. But the actual amperage of a 110 V circuit depends on the device connected to it and how much current it draws. For instance, a 12 amp vaccuum cleaner is gonna draw 12 amps out of a 110 V circuit, whereas a 60 watt light bulb connected to the same circuit is gonna draw about half an amp (amperage=wattage/voltage, or amperage=60/110).
High amperage with low voltage won't conduct through tissue. High voltage with low amperage will conduct through tissue but will not cause tissue damage. Voltage must be high enough (at least 70-80V) to conduct and interrupt nerve conductivity. Amperage must be high enough to damage tissue. 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. Both are dangerous, because you can't have one without the other. amperage = voltage / resistance If you have something with a fixed resistance (for example, your heart) the amount of voltage will be directly related to the amount of amperage. Double the voltage, and you would get double the amperage.
No, atomic mass and atomic number are not directly proportional to each other. Atomic mass represents the average mass of isotopes of an element, while atomic number represents the number of protons in an atom's nucleus. These values are related but not directly proportional.