Millikan's oil drop experiment determined the charge of an electron, helping to establish the value of the elementary charge and providing evidence for the quantization of electric charge. This experiment also contributed to the accurate determination of the electron's mass and the understanding of the structure of the atom.
The oil drop experiment by Robert Millikan determined the charge of an electron, which helped to establish the quantization of electric charge. This experiment was significant in accurately measuring the charge of individual electrons.
Robert Millikan's oil drop experiment measured the charge of an electron and calculated its value to be approximately -1.6 x 10^-19 coulombs. By observing the motion of charged oil droplets in an electric field, he was able to determine the fundamental unit of electric charge.
For the oil drop experiment conducted by Robert Millikan in 1909, he used a type of oil called mineral oil. By using mineral oil with a very low vapor pressure, Millikan was able to observe and measure the behavior of oil droplets in an electric field.
The oil drop experiment was conducted by Robert Millikan in 1909 to determine the charge of an electron. The hypothesis was that the charge of individual oil droplets could be determined by observing them falling in an electric field and measuring the forces acting on them. This experiment provided an accurate determination of the charge of an electron.
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.
The oil drop experiment by Robert Millikan determined the charge of an electron, which helped to establish the quantization of electric charge. This experiment was significant in accurately measuring the charge of individual electrons.
Robert Millikan's oil drop experiment measured the charge of an electron and calculated its value to be approximately -1.6 x 10^-19 coulombs. By observing the motion of charged oil droplets in an electric field, he was able to determine the fundamental unit of electric charge.
Different drops had different charges in Millikan's oil drop experiment because they gained or lost electrons as they moved through the chamber, leading to variations in their net charge. This variability in charge allowed Millikan to observe different electrostatic forces acting on the drops and calculate the charge of a single electron.
when did Millikan conduct his famous oil drop experiment
The charge of the electron
Millikan's oil drop apparatus allowed for the determination of the charge of the electron. By measuring the charges on oil droplets and manipulating electric fields, he was able to calculate the charge-to-mass ratio of the electron, which in turn helped determine the actual charge of the electron.
For the oil drop experiment conducted by Robert Millikan in 1909, he used a type of oil called mineral oil. By using mineral oil with a very low vapor pressure, Millikan was able to observe and measure the behavior of oil droplets in an electric field.
the answer is 14
There are two scientist working together: The oil drop experiment was an experiment performed by Robert Millikan and Harvey Fletcher in 1909 to measure the charge of the electron (the elementary electric charge).
The oil drop experiment was conducted by Robert Millikan in 1909 to determine the charge of an electron. The hypothesis was that the charge of individual oil droplets could be determined by observing them falling in an electric field and measuring the forces acting on them. This experiment provided an accurate determination of the charge of an electron.
he discovered the the electron has a negative charge through an experiment called the oil-drop experiment
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.