Calculate and compare the electric force between a proton and an electron to the gravitational force...

Find the force of electrical attraction between a proton and an electron that are 7.5 10-11...

Find the force of electrical attraction between a proton and an electron that are 7.5 10-11 m apart. Compare this to the gravitational force between these particles.

Find the force of electrical attraction between a proton and an electron that are 8.4 10-11...

Find the force of electrical attraction between a proton and an electron that are 8.4 10-11 m apart. (Enter the magnitude only.) N Compare this to the gravitational force between these particles.

In a Hydrogen atom an electron rotates around a stationary proton in a circular orbit with...

In a Hydrogen atom an electron rotates around a stationary proton in a circular orbit with an approximate radius of r =0.053nm. (a) Find the magnitude of the electrostatic force of attraction, Fe between the electron and the proton. (b) Find the magnitude of the gravitational force of attraction Fg , between the electron and the proton, and find the ratio, Fe /Fg . me = 9.11 x 10-31kg, e = 1.602 x 10-19C mp = 1.67 x 10-27kg k...

A proton of mass mp = 1.67 × 10-27 kg and charge qp = 1.602 ×...

A proton of mass mp = 1.67 × 10-27 kg and charge qp = 1.602 × 10-27 C is in an electric field of E = 10 N/C that points upwards. Draw a free body diagram for the proton, and calculate the electrical-to-gravitational force ratio: FE/FG. Finally, remark on whether the gravitational force is likely to be significant for an electron in an 10 N/C electric field.

Two proton are seperated by a distance 10-15m. A-What is the ratio of electric and gravitational...

Two proton are seperated by a distance 10-15m. A-What is the ratio of electric and gravitational force between them.   B- When they are released, calculate their acceleration.   (Charge of proton: 1,6x10-19 C and mass of proton: 1,6x10-27 kg. G=6,67x10-11 MKS)

Two proton are seperated by a distance 10^-15m. A-What is the ratio of electric and gravitational...

Two proton are seperated by a distance 10^-15m. A-What is the ratio of electric and gravitational force between them. B- When they are released, calculate their acceleration. (Charge of proton: 1,6x10^-19 C and mass of proton: 1,6x10^-27 kg. G=6,67x10^-11 MKS)

Compare the gravitational attraction (Newton's Law) and electrical attraction (Coulomb's law) forces between an electron and...

Compare the gravitational attraction (Newton's Law) and electrical attraction (Coulomb's law) forces between an electron and a proton, including the states of two electrons and two protons. (You can refer an academic source for the load and mass values of the particles)

24. An alpha (α) particle is positioned in an electric field such that the gravitational force...

24. An alpha (α) particle is positioned in an electric field such that the gravitational force acting on it is equal to the electrostatic force.              (qα = 3.2 x 10–19 C and mα = 6.64 x 10–27 kg) a) What is the direction of the electric field at this point? b) What is strength of the electric field? c) If the field is located 0.25 m away, what is the magnitude of the charge? Determine the potential at a...

A particular electric dipole consists of a proton of charge of 1.6x10-19 Coulomb and an electron...

A particular electric dipole consists of a proton of charge of 1.6x10-19 Coulomb and an electron of charge of -1.6x10-19 Coulomb, separated by 2x10-10[m] = 0.2[nm]. 1a. What’s the electrostatic force between the charges (magnitude and direction), and why? 1b. What’s the electric field magnitude and direction at a point halfway between the two charges, and why? 1c. How much energy (in electron Volts OR in Joules) is needed to separate these two charges?

Compare the weight of a 5.40-kg object on Earth's surface to the gravitational force between a...

Compare the weight of a 5.40-kg object on Earth's surface to the gravitational force between a 5.40-kg object that is one Earth radius from another object of mass equal to 5.98 ×× 1024 kg. Use Newton's universal law of gravitation for the second part of the question. 2) Determine the gravitational force an Earth radius away. (Express your answer to three significant figures.)