Want this question answered?
E = mc^2
If the equation is an identity.
set amount of something being produced
The graph of an equation is all of the answers that are true for the equation. A variable is an unknown number in an equation. Most equations are written with x and y variables. There are an unlimited amount of numbers that the variables can be to have the equation be true, so you would graph the equation to show the unlimited amount of numbers that make the equation true.
variables
In the equation N2+3H2=2NH3, the amount of ammonia produced from 50g of N would be 16.667g.
E = mc^2
Stoichiometry relates moles of reactant to moles of product, so if you have the amount of reactant in the equation, you can calculate the amount of product produced.
IV : amount of fertilizer 3 levels of IV : lots of fertilizer, a little fertilizer, no fertilizer. DV : plant height 3 constants : location, amt of water, type of plant graph : Bar
at least 40 pounds of fertilizer is needed to adequately cover your backyard. let f= the amount of fertilizer needed
does the amout of fertilizer affect how tall a flower grows
An independent variable is the variable in the experiment that affects the other variable. For example, in an experiment that tests the affect of the amount of fertilizer on plant growth, the amount of fertilizer is the independent variable and the plant growth is the dependent variable. This is because the plant growth DEPENDS on the amount of fertilizer.
The equation, E = mc2, is important today because it is the basic equation of nuclear physics. So for example it is used to calculate the amount of energy produced by the fuel in a nuclear power station, or the amount of energy potentially released in a hydrogen bomb. It is also important is astrophysical models of stars, where energy is provided by nuclear fusion. The equation is used alot in particle physics to calculate the masses of particles produced and to calculate the the energy needed to produce particular particles.
Insufficient fertilizer in plants can cause deficiency symptoms and slow plant growth. Excess fertilizer, meanwhile, can lead to salinity problems.
The dependent variable is the growth that depends upon (or results from) the application of fertilizer. The independent variable is the fertilizer itself.
i bet its 2.0g
it depends on the type of fertilizer you use. It also depends on the amount