negative to positive,electrons to protons
Absolutely not. The reason behind is that it shows currents (both ac and dc) which has a desired direction of flow of electrons.. So Galvanometer does not have any electrolytic terminals!!
Business and finance: Examples are profit (positive) or loss(negative). Net Cash flow (amount of money coming in less amount going out) can be positive or negative. This is not the same as profit/loss. For example, you buy a piece of equipment for your business and finance it. Your payments on the loan affect cash flow, but the interest on the loan and the depreciation of the equipment affect profit/loss. In your personal finance, you can have a net negative cash flow. If you have some savings, and say one year you are laid off for a while and have to draw from savings. Or say you are saving up to buy a car. While you are saving, your net cash flow is positive, then when you buy the car, your cash flow could be negative, for that year. In investing, many investments (mutual funds in particular) will express a Rate of return as a percentage. This number could be either positive (the investment increased in value), or negative (the investment decreased in value).
The volcanic ash is very fertile and can bring a very good harvest. The pyroclastic flow and the lava is very destractive and can caurse a lot of damedge to the serrounding area.
x raised to a positive power, a is xa where a> 0. If a is an integer then it is equal to x*x*...*x where there are a lots of x.x raised to a negative power is the same as the reciprocal of x raised to the absolute value of the power. Thus, if b < 0 then xb = 1/x-bwhere -b > 0.x raised to rational or irrational powers are defined using the power laws.Another AnswerThe terms 'positive' and 'negative' powercan also be used to describe the direction of energy flow. For example, when a generator supplies energy to the grid, we can say that the direction of that energy and, therefore, the rate at which the energy flows (i.e. power) is positive. However, when the grid supplies energy back to the generator (causing it to 'motor'), then the energy (and, therefore, the power) is negative.
Electrons have a negative charge. For that reason, electrons will always flow in the opposite direction of the current, which flows from positive to negative. Electrons will therefore move from a negative terminal to a positive terminal when we look at the load on a cell. Within the cell, the electrons will flow from the positive terminal to the negative terminal.
negative to positive,electrons to protons
Electrons are a negative charge. Using conventional notation current flows from positive to negative poles of a battery, for example. In electron flow convention the electrons flow from negative to positive.
Electrons are a negative charge. Using conventional notation current flows from positive to negative poles of a battery, for example. In electron flow convention the electrons flow from negative to positive.
Polarity is the direction of flow of electrons throughout a circuit. There are two types of polarity: positive and negative. Postive polarity is of older circuits which means electrons flow from positive to negative. Negative polarity is of more modern circuits and that is the flow of electrons from negative to positive such as on car batteries
the positive side, the negative side is usually just a ground
The electron flow concept states that electrons flow from the negative terminal to the positive terminal of a voltage source, in contrast to the conventional current flow theory which assumes positive charge carriers moving from positive to negative.
from negative to positive.
Electrons moving from negative to positive are known as conventional current flow. This represents the direction of current flow that was historically established and is commonly used in circuit analysis. In reality, electrons flow from negative to positive in the opposite direction.
Electrons have a negative charge and are attracted to the positive charge. Therefore, they naturally flow from a negative potential to a positive potential. This flow of electrons creates an electric current in a circuit.
Yes, electrons flow from the negative terminal to the positive terminal in a circuit. This is because electrons are negatively charged particles, and they are attracted to the positive terminal.
The direction of current due to flow of electrons is opposite to the direction of conventional current. This is because electrons have a negative charge, so when they flow in a wire, they are actually moving in the opposite direction to the current flow defined by convention.