Homework Answers
Fe = k*e^2/r^2
= 9*10^9*(1.6*10^-19)^2/(5.3*10^-11)^2
= 8.20*10^-8 N <<<<<<-------------Answer
Fg = G*me*mp/r^2
= 6.67*10^-11*9.1*10^-31*1.67*10^-27/(5.3*10^-11)^2
= 3.61*10^-47 N <<<<<<-------------Answer
Fe/Fg = 8.20*10^-8/(3.61*10^-47)
= 2.27*10^39 <<<<<<-------------Answer
magnitude of electric force between two protons,
Fe = k*q^2/r^2
= 9*10^9*(1.6*10^-19)^2/(10^-15)^2
= 230.4 N <<<<<<-------------Answer
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Example 15.1 The Forces in a Hydrogen Atom Goal Contrast the magnitudes of an electric force...
worked examples is the 2nd photo. plzz help!!! Use the worked example above to help you...
worked examples is the 2nd photo.
plzz help!!!
Use the worked example above to help you solve this problem. The electron and proton of a hydrogen atom are separated by a distance of about 5.62 X 1011 m at some instant. (a) Find the magnitudes of the electric force and the gravitational force that each particle exerts on the other, and the ratio of the electric force, F., to the gravitational force, F F -70E0-8 The response you submitted has...
ll. (II) Compare the electric force holding the electron in orbit r 0.53 x 10-10 m)...
ll. (II) Compare the electric force holding the electron in orbit r 0.53 x 10-10 m) around the proton nucleus of the hydrogen atom, with the gravitational force between the same electron and proton. What is the ratio of these two forces?
A hydrogen atom is at the earth’s surface. The electron and proton in the atom are...
A hydrogen atom is at the earth’s surface. The electron and
proton in the atom are separated by a distance of 5.29×10?11m. What
is the ratio of the magnitude of the electric force exerted by the
proton on the electron to the weight of the electron?
r-529 x1σ11 m Mp= 1.67×10 -27 kg /n-911 × 10-31 kg
1 Dipole Forces Water is a polar molecule. It has an electric dipole strength of p-6-10-30...
1 Dipole Forces Water is a polar molecule. It has an electric dipole strength of p-6-10-30 С . m. This is roughly equivalent to a proton and an electron separated by a distance of d- 4 10-11 m (about the radius of a hydrogen atom) In this problem, we will use Coulomb's law to compare the force between two protons, a proton and a water molecule, and two water molecules. Use the arrangement of the charges shown in the figure...
1 Dipole Forces Water is a polar molecule. It has an electric dipole strength of p...
1 Dipole Forces Water is a polar molecule. It has an electric dipole strength of p 6-10-30 C-n This is roughly equivalent to a proton and an electron separated by a distance of d 4.101 m (about the radius of a hydrogen atom) In this problem, we will use Coulomb's law to compare the force between two protons, a proton and a water molecule, and two water molecules. Use the arrangement of the charges shown in the figure for your...
Two forces act on a 3.20 kg object, the gravitational force and a second, constant force....
Two forces act on a 3.20 kg object, the gravitational force and a second, constant force. The object starts from rest and in 1.20 s is displaced (4.251 - 3.301) m. Write the second force in unit vector notation. (Enter your answer in kg. m/s. Assume the gravitational force acts in the - direction.) = (18.888)i + (17.152); First, find the acceleration vector using kinematics, then substitute into Newton's second law to determine the unknown force vector. Recall that the...
(a) Two protons in a molecule are 4.10 x 1010 m apart. Find the electric force...
(a) Two protons in a molecule are 4.10 x 1010 m apart. Find the electric force exerted by one proton on the other. magnitude directionSelect (b) State how the magnitude of this force compares with the magnitude of the gravitational force exerted by one proton on the other (c) What must be a particle's charge-to-mass ratio if the magnitude of the gravitational force between two of these particles is equal to the magnitude of electric force between them? C/kg
5. Sketch the planetary picture of the Helium Atom (Z=2, A=4). The radius of the electrons...
5. Sketch the planetary picture of the Helium Atom (Z=2, A=4). The radius of the electrons orbits in Helium (i.e. the size of the Helium Atom) is about Re = 2 x 10^-11m while the distance between the two protons is the nucleus is about Rff =2x10^-15m. Write down the ratio of the repulsive electric force between the two protons to the attractive electric force between the Helium nucleus and the electron R2 = RFF/F nucl. Judiciously do any possible...
Consider an isolated hydrogen atom of mass 1.66 x 10-27 kg. (a) Find the gravitational force...
Consider an isolated hydrogen atom of mass 1.66 x 10-27 kg. (a) Find the gravitational force on this hydrogen atom near the surface of the earth (assume that at sea level the gravitational acceleration constant g= 9.8 m/s2 ). (b) Let an upwardly directed laser beam emitting 1-eV photons be forced in such a way that the full momentum of each of its photons is transferred to the atom. Find the average upward force on the atom provided by one...
2. Consider a simplified model of a triply ionized beryllium-9 atom (Be): four protons plus five...
2. Consider a simplified model of a triply ionized beryllium-9 atom (Be): four protons plus five neutrons in the atom's nucleus, "orbited" by just one electron at a constant distance of 5.75 × 10-12 m. (Note: This is not the actual distance, but it is the correct order-of-magnitude.) 6 pts.) You can solve (a) & (b) in either order. Label your work clearly: a. What is the strength (magnitude) of the attractive electric force between the nucleus and the electron?...
worked examples is the 2nd photo.
plzz help!!!
Use the worked example above to help you solve this problem. The electron and proton of a hydrogen atom are separated by a distance of about 5.62 X 1011 m at some instant. (a) Find the magnitudes of the electric force and the gravitational force that each particle exerts on the other, and the ratio of the electric force, F., to the gravitational force, F F -70E0-8 The response you submitted has...
ll. (II) Compare the electric force holding the electron in orbit r 0.53 x 10-10 m) around the proton nucleus of the hydrogen atom, with the gravitational force between the same electron and proton. What is the ratio of these two forces?
A hydrogen atom is at the earth’s surface. The electron and
proton in the atom are separated by a distance of 5.29×10?11m. What
is the ratio of the magnitude of the electric force exerted by the
proton on the electron to the weight of the electron?
r-529 x1σ11 m Mp= 1.67×10 -27 kg /n-911 × 10-31 kg
1 Dipole Forces Water is a polar molecule. It has an electric dipole strength of p-6-10-30 С . m. This is roughly equivalent to a proton and an electron separated by a distance of d- 4 10-11 m (about the radius of a hydrogen atom) In this problem, we will use Coulomb's law to compare the force between two protons, a proton and a water molecule, and two water molecules. Use the arrangement of the charges shown in the figure...
1 Dipole Forces Water is a polar molecule. It has an electric dipole strength of p 6-10-30 C-n This is roughly equivalent to a proton and an electron separated by a distance of d 4.101 m (about the radius of a hydrogen atom) In this problem, we will use Coulomb's law to compare the force between two protons, a proton and a water molecule, and two water molecules. Use the arrangement of the charges shown in the figure for your...
Two forces act on a 3.20 kg object, the gravitational force and a second, constant force. The object starts from rest and in 1.20 s is displaced (4.251 - 3.301) m. Write the second force in unit vector notation. (Enter your answer in kg. m/s. Assume the gravitational force acts in the - direction.) = (18.888)i + (17.152); First, find the acceleration vector using kinematics, then substitute into Newton's second law to determine the unknown force vector. Recall that the...
(a) Two protons in a molecule are 4.10 x 1010 m apart. Find the electric force exerted by one proton on the other. magnitude directionSelect (b) State how the magnitude of this force compares with the magnitude of the gravitational force exerted by one proton on the other (c) What must be a particle's charge-to-mass ratio if the magnitude of the gravitational force between two of these particles is equal to the magnitude of electric force between them? C/kg
5. Sketch the planetary picture of the Helium Atom (Z=2, A=4). The radius of the electrons orbits in Helium (i.e. the size of the Helium Atom) is about Re = 2 x 10^-11m while the distance between the two protons is the nucleus is about Rff =2x10^-15m. Write down the ratio of the repulsive electric force between the two protons to the attractive electric force between the Helium nucleus and the electron R2 = RFF/F nucl. Judiciously do any possible...
2. Consider a simplified model of a triply ionized beryllium-9 atom (Be): four protons plus five neutrons in the atom's nucleus, "orbited" by just one electron at a constant distance of 5.75 × 10-12 m. (Note: This is not the actual distance, but it is the correct order-of-magnitude.) 6 pts.) You can solve (a) & (b) in either order. Label your work clearly: a. What is the strength (magnitude) of the attractive electric force between the nucleus and the electron?...
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