In the Millikan experiment an oil droplet is able to be suspended between two charged plates....

In a Millikan-type experiment, an oil droplet of mass 3.7x10^-18 is suspended between two horizontal parallel...

In a Millikan-type experiment, an oil droplet of mass 3.7x10^-18 is suspended between two horizontal parallel plates when the potential difference between the plates is 4.50 V and they are 4.0 cm apart. The upper plate is positive. a) Is the sphere positively or negatively charged? Explain. b) Calculate the magnitude of charge on the sphere. c) How much excess or deficit of electrons does the sphere have? (State whether is is excess or deficit.)

In the early 1900s, Robert Millikan used small charged droplets of oil, suspended in an electric...

In the early 1900s, Robert Millikan used small charged droplets of oil, suspended in an electric field, to make the first quantitative measurements of the electron’s charge. A 0.79-μm-diameter droplet of oil, having a charge of +e, is suspended in midair between two horizontal plates of a parallel-plate capacitor. The upward electric force on the droplet is exactly balanced by the downward force of gravity. The oil has a density of 860 kg/m3, and the capacitor plates are 6.0 mm...

a) An oil droplet with a mass of 7.20 x 10-16 kg is moving upward at...

a) An oil droplet with a mass of 7.20 x 10-16 kg is moving upward at a constant speed of 2.0 m/s between two horizontal charged plates. If the electric field strength between the plates is 2.20 x 104 V/m what is the charge on the oil droplet ? answer in the format of a.bc x 10-de C b) An oil droplet with a mass of 3.50 x 10-15 kg accelerates downward at a rate of 2.50 m/s2 when it...

The Millikan oil drop experiment of 1909 allowed Robert A. Millikan to determine the charge of...

The Millikan oil drop experiment of 1909 allowed Robert A. Millikan to determine the charge of an electron. In the experiment, an oil drop is suspended between two charged plates by an electric force that equals the gravitational force acting on the 2.07 x 10-14 kg drop. a) What is the gravitational force on this oil drop? b) What is the Electric force on the charge? c) What is the charge on the drop if the electric field is 1.72...

The Millikan Oil Drop Experiment Quiz      1. In your own words, describe the goal of the...

The Millikan Oil Drop Experiment Quiz      1. In your own words, describe the goal of the Millikan Oil Drop Experiment. 2. Why did Millikan and Fletcher use an atomizer to get the oil into the apparatus? 3. How was each drop given an electric charge? 4. How was Millikan able to determine the force of the uniform electric field on each drop? 5. Millikan was able to determine the overall charge on each drop by using the formula . How...

In Millikan's experience, a microscopic oil droplet, with 2 mm radius, is introduced between the plates...

In Millikan's experience, a microscopic oil droplet, with 2 mm radius, is introduced between the plates of a plan capacitor, whose spacing is 5 cm. The oil density is 0.78 g/cm3. With the plates initially discharged, the droplet is observed to fall reaching, due to air resistance, a constant terminal speed v. When applying across the plates a potential difference of 40 kV with the electric field oriented upward, the falling speed doubles. What is the sign and the total...

Chase and Kadri consider the following values, which are part of a set of experimental data...

Chase and Kadri consider the following values, which are part of a set of experimental data for a Millikan oil-droplet experiment. b = 1.48 ✕ 10−10 kg/s d = 0.016 m ρoil − ρair = 0.882 g/cm3 r = 3.0 ✕ 10−7 m V = 5000 V What is the terminal speed for a droplet of charge 3e? To what value should the voltage be adjusted so that the droplet is suspended between the two plates?

The potential difference between a pair of oppositely charged parallel plates is 393 V. (a) If...

The potential difference between a pair of oppositely charged parallel plates is 393 V. (a) If the spacing between the plates is tripled without altering the charge on the plates, what is the new potential difference between the plates? (b) If the plate spacing is doubled while the potential difference between the plates is kept constant, what is the ratio of the final charge on one of the plates to the original charge

In Millikan’s oil-drop experiment, one looks at a small oil drop held motionless between two plates....

In Millikan’s oil-drop experiment, one looks at a small oil drop held motionless between two plates. Take the voltage between the plates to be 2033 V, and the plate separation to be 2.00 cm. The oil drop (of density 0.81 g/cm3) has a diameter of 3 x 10-6m. Find the charge on the drop, in terms of electron units. You need to round your answer to the nearest integer.

Two 2.20cm×2.20cm plates that form a parallel-plate capacitor are charged to ± 0.711 nC . What...

Two 2.20cm×2.20cm plates that form a parallel-plate capacitor are charged to ± 0.711 nC . What is the potential difference across the capacitor if the spacing between the plates is 0.500 mm ? What is the potential difference across the capacitor if the spacing between the plates is 1.00 mm ?