foodchain
A series of organisms each dependent on the next as a source of food is called a food chain. It represents the transfer of energy and nutrients from one organism to another in an ecosystem. Each organism occupies a specific trophic level, with producers at the bottom (plants) and consumers at higher levels, forming a linear sequence of energy flow.
No.
The vertical axis normally represents the dependent variable although both variables may be dependent (on each other).
The Dependent Variable (Y).The dependent variable. When two variables have a relationship with each other (independent and dependent), it is called a function. Usually, the independent variable is x and the dependent variable is y, although this can be switched around depending on the data.
Dependent on each other. Both parties have a dependency on one another.
Two random samples are dependent if each data value in one sample can be paired with a corresponding data value in the other sample.
True
The path that energy takes as one thing eats another is called the food chain. It refers to a hierarchical series of organisms, each dependent on the next as a food source.
In a series circuit, there is only one pathway for current to flow from the source, through each component, and back to the source. This means all the components in a series circuit share the same current.
A series of organisms each dependent on the next as a source of food.
In a series circuit, there is only one path for electricity to travel along the circuit from the power source through each component connected in series back to the power source.
The voltage between the ends of the circuit doesn't change ... that's where the power source is connected. But when you add more items in a series circuit, the voltage across each item changes. The individual voltages across each item in the series circuit always add up to the voltage of the power source. So in general, if you add more items, the voltage across each of the original ones must drop somewhat.
A: In a series circuit the current remains the same for each components only the voltage across each component will change and only if the components are of different value.
For each qualified dependent you may claim an exemption of $3,650.
Yes, the superposition principle applies to dependent sources. By independently analyzing the effect of each source in a circuit and then summing the individual responses, you can determine the overall response without any difficulty caused by the presence of dependent sources.
Dependent on each other. Both parties have a dependency on one another.
There are several ways to solve dependent source circuit problems. The two most common methods used while learning circuit analysis are the linear superposition method and the transfer function method. The linear superposition method is the most straight-forward. Assuming the circuit is linear, you simply set up a system of linear equations corresponding to each dependent source, and solve the equations. There are numerous methods of solving systems of linear equations, all of which are covered in the branch of mathematics known as linear algebra. The transfer function method, in actuality there are many of these types of methods, either turns multiple dependent source problems into a single dependent source problem or changes the domain in which you're working from the time domain into a far simpler, mathematically equivalent domain parameter. Laplace transforms are a good example of this type of method. I've included a bunch of links if you want to learn more.
When switches or any circuit opening devices are in series with each other, they all have to be in the closed position to energize the load.When switches or any circuit opening devices are in parallel with each other, any one of the switches or circuit opening devices in the closed position will energize the load.