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a) Calculate the electrical force between a gram of protons and the same number of electrons...
a) Calculate the electrical force between a gram of protons and the same number of electrons...
a) Calculate the electrical force between a gram of protons and the same number of electrons that are separated by 1 m. (There are about 5.979x1023 protons in a gram, each with a charge of +1.602x10-19 C; charge on an electron is the same magnitude but negative
BICCLL USLation 1: Calculate the electric force between 2 protons in a nucleus that are 5x1015m...
BICCLL USLation 1: Calculate the electric force between 2 protons in a nucleus that are 5x1015m apart. Compare this with the gravitational force between them. The gravitational force is expressed by F.-GM,M/2 where M, and M2 are the masses of the two objects and G is the gravitational constant 6.67x10 Nm'/kg?. Your answers here might make you wonder why the protons don't fly apart. Use mp-1.67x102"kg.
It is known that the electric force of repulsion between two electrons is much stronger than...
It is known that the electric force of repulsion between two electrons is much stronger than the gravitational attraction. For two electrons at a distance d apart, calculate the ratio of the size of the electrostatic repulsion to that of the gravitational attraction at a disance d apart, calculate the ratio of the size of the electrostatic repulsion to that of the gravitational attraction Use the following data: k-8.99x 109 Nm2/C2, e-1.60x10-19 C, G-6.67x10-11 Nm2/kg2, me 9.11x10-31 kg.
-15 apart. 1: Calculate the electric force between 2 protons in a nucleus that are 5x101...
-15 apart. 1: Calculate the electric force between 2 protons in a nucleus that are 5x101 m Compare this with the gravitational force between them. The gravitational force is expressed by F-GMr where M, and M2 are the masses of the two objects and G is the gravitational constant 6.67x101Nm2kg?. Your answers here might make you wonder why the protons don't fly apart. Use m,-1.67x102/kg. -27
The relationship between the electric force F (e) and the gravitational force F (g) (or 1. weight) between two electron...
The relationship between the electric force F (e) and the gravitational force F (g) (or 1. weight) between two electrons. Two equal and equally charged spheres of 0.1 g of mass each are suspended from the same point by threads of 13 cm in length. Due to the repulsion between both, the spheres are separated 10 cm as seen in the graphic representation. Find the load of 2. each of them. Calculate the number of electrons that add an electric...
3. Let's see how the strength of the electrical force compares to the gravitational force. If...
3. Let's see how the strength of the electrical force compares to the gravitational force. If two 10 g ice cubes of pure water were a distance r apart. If we placed the same amount of excess charge on each ice cube, how much excess charge would we need so that the magnitude of the electrical force was the same as the gravitational force between them?
2. Unlike on Earth-where electromagnetic forces dominate our lives--in space gravity is the dominant force. a....
2. Unlike on Earth-where electromagnetic forces dominate our lives--in space gravity is the dominant force. a. Compare the gravitational force between two electrons to their electric attraction. (Hint: Google Coulomb's Law, charge of an electron, and mass of an electron, and plug in the numbers.) The difference is massive-this is a fundamental truth about our universe. Calculate the mass of the electron necessary to make the gravitational attraction and electrical repulsion of two electrons equal. b. The only reason gravity...
It is known that the electric force of repulsion between two electrons is much stronger than...
It is known that the electric force of repulsion between two electrons is much stronger than the gravitational attraction. For two electrons at a distance d apart, calculate the ratio of the size of the electrostatic repulsion to that of the gravitational attraction. Use the following data: k = 8.99×109 Nm2/C2, e = 1.60×10-19 C, G = 6.67×10-11 Nm2/kg2, me = 9.11×10-31 kg.
(a) Two protons in a molecule are 3.40 x 1010 m apart. Find the electric force...
(a) Two protons in a molecule are 3.40 x 1010 m apart. Find the electric force exerted by one proton on the other magnitude directionrepuisive (b) State how the magnitude of this force compares with the magnitude of the gravitational force exerted by one proton on the other. What is the equation for the electrical force acting between two charged objects? N What is the mass of a proton? (c) What must be a particle's charge-to-mass ratio if the magnitude...
Find the force of electrical attraction between a proton and an electron that are 7.4 10-11...
Find the force of electrical attraction between a proton and an electron that are 7.4 10-11 m apart. (Enter the magnitude only.) Compare this to the gravitational force between these particles.
a) Calculate the electrical force between a gram of protons and the same number of electrons that are separated by 1 m. (There are about 5.979x1023 protons in a gram, each with a charge of +1.602x10-19 C; charge on an electron is the same magnitude but negative
BICCLL USLation 1: Calculate the electric force between 2 protons in a nucleus that are 5x1015m apart. Compare this with the gravitational force between them. The gravitational force is expressed by F.-GM,M/2 where M, and M2 are the masses of the two objects and G is the gravitational constant 6.67x10 Nm'/kg?. Your answers here might make you wonder why the protons don't fly apart. Use mp-1.67x102"kg.
It is known that the electric force of repulsion between two electrons is much stronger than the gravitational attraction. For two electrons at a distance d apart, calculate the ratio of the size of the electrostatic repulsion to that of the gravitational attraction at a disance d apart, calculate the ratio of the size of the electrostatic repulsion to that of the gravitational attraction Use the following data: k-8.99x 109 Nm2/C2, e-1.60x10-19 C, G-6.67x10-11 Nm2/kg2, me 9.11x10-31 kg.
-15 apart. 1: Calculate the electric force between 2 protons in a nucleus that are 5x101 m Compare this with the gravitational force between them. The gravitational force is expressed by F-GMr where M, and M2 are the masses of the two objects and G is the gravitational constant 6.67x101Nm2kg?. Your answers here might make you wonder why the protons don't fly apart. Use m,-1.67x102/kg. -27
The relationship between the electric force F (e) and the gravitational force F (g) (or 1. weight) between two electrons. Two equal and equally charged spheres of 0.1 g of mass each are suspended from the same point by threads of 13 cm in length. Due to the repulsion between both, the spheres are separated 10 cm as seen in the graphic representation. Find the load of 2. each of them. Calculate the number of electrons that add an electric...
3. Let's see how the strength of the electrical force compares to the gravitational force. If two 10 g ice cubes of pure water were a distance r apart. If we placed the same amount of excess charge on each ice cube, how much excess charge would we need so that the magnitude of the electrical force was the same as the gravitational force between them?
2. Unlike on Earth-where electromagnetic forces dominate our lives--in space gravity is the dominant force. a. Compare the gravitational force between two electrons to their electric attraction. (Hint: Google Coulomb's Law, charge of an electron, and mass of an electron, and plug in the numbers.) The difference is massive-this is a fundamental truth about our universe. Calculate the mass of the electron necessary to make the gravitational attraction and electrical repulsion of two electrons equal. b. The only reason gravity...
(a) Two protons in a molecule are 3.40 x 1010 m apart. Find the electric force exerted by one proton on the other magnitude directionrepuisive (b) State how the magnitude of this force compares with the magnitude of the gravitational force exerted by one proton on the other. What is the equation for the electrical force acting between two charged objects? N What is the mass of a proton? (c) What must be a particle's charge-to-mass ratio if the magnitude...
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