That is just not true! If you can calculate its average speed you should be able to calculate its speed at any point in time during its flight, including its final velocity.
You would need to know other physical properties to be able to calculate the length. As you would need to know certain properties to be able to calculate the volume, for instance.
To be able to calculate a mi to the second power you need to
period
If the triangle is right-angled then you should be able to use Pytharoras Theorem to calculate the missing side otherwise you need an angle to be able to use trigonometry
That is just not true! If you can calculate its average speed you should be able to calculate its speed at any point in time during its flight, including its final velocity.
Because then if you want to try your experiment again, you can because it is able to be produced again.
To verify the results of the experiment.
The significance of the oil drop of radius in Millikan's experiment was that it allowed him to determine the charge of an electron, which was a crucial step in understanding the fundamental properties of matter. By measuring the radius of the oil drop and the electric field applied, Millikan was able to calculate the charge of the electron, providing important insights into the structure of atoms and the nature of electricity.
bescause without the demimal system we wouldn't be able to calculate money or procentige
hypothesis
The answer is that a NONtestable experiment is when you can not test it. A testABLE experiment is when you can test it. It is like a able is when you are able to to it and when you non it is not able but the word nontestABLE is NOT able!! It is so funny WOW!! LOL!!?!!?!?!?!?!?!?!?!?!?!?!?!?!?!?!?!?!?!?!?!?!?!?!?!?!?!?!?!?!??!?!?!?!??!?!
Math is an important part of your life. Most jobs require you to no math and be able to calculate well.
Millikan was able to quantitate the elementary electric charge using his oil drop experiment. By measuring the forces acting on the oil drops in the electric field, he could determine the charge on each drop and eventually calculate the charge of a single electron.
It is so that the experiment is a fair test. In order to protect the integrity and / or accuracy of the experiment and its results, you have to be able to control all the variables so that you know exactly why something is happening. If you do not control the variables, then one of them could be the reason for the results, and you won't be sure why you got the results you did.
It is so that the experiment is a fair test. In order to protect the integrity and / or accuracy of the experiment and its results, you have to be able to control all the variables so that you know exactly why something is happening. If you do not control the variables, then one of them could be the reason for the results, and you won't be sure why you got the results you did.
It is so that the experiment is a fair test. In order to protect the integrity and / or accuracy of the experiment and its results, you have to be able to control all the variables so that you know exactly why something is happening. If you do not control the variables, then one of them could be the reason for the results, and you won't be sure why you got the results you did.