greater distance takes greater time. it is not an inverse operation, they have a positive correlation.
Yes! Good work.
Distance - Time shows speed (by gradient) and distance travelled over a given time. Speed - time shows acceleration and instant speed.
They are inversely proportional, given that displacement is constant, as the equation shows : v = D/t This is logical. The faster an object moves, the less time it will take to travel a specific distance.
C the distance between the top or bottom of a wave
Work is basically a type of energy. Power is equal to energy / time; therefore, energy (or work) = power x time.
Such an equation is called a "proportion".
The total ionic equation shows all of the equation, even the spectator ions. The net ionic equation shows the net change after spectator ions have been removed.
a balanced equation shows the correct proportion and mole/grams of the reactants involved....
An Hyperbola XY=constant K.
relative amounts of reactants and products
You haven't entirely defined the problem, however, if distance is fixed, than velocity and time vary in an inverse relation to each other. How long does it take to travel one mile? The faster you travel, the less time it takes. So the relationship is inverse. More of one means less of the other. But only for a fixed distance. You could just as well imagine that you will travel for a fixed period of time. Then there is a direct relationship between speed and distance traveled. The faster you travel, the farther you will go.
It is called a photosynthesis equation.
The chemical equation that shows all ionic reactants and products is known as the complete ionic equation. A molecular equation doesn't necessarily indicate ionic nature.
X=k/square of y
if it has an equal sign then it is an equation
The importance of Einstein's equation is that it shows us that mass and energy are related. The famous equation is E=mc2.
Yes! Good work.