The heart has a dipole charge distribution with a charge of +1.0×10−7C that is 6.1 cm...
The heart has a dipole charge distribution with a charge of +1.0×10−7C that is 6.1 cm above a charge of −1.0×10−7C. A) Determine the magnitude of the E⃗ field caused by the heart's dipole at a distance of 8.5 cm directly above the heart's positive charge. All charges are located in body tissue of dielectric constant 7.0. The answer is not 82.34x10^3 N/C that answer would be correct if the charges were located in the air. the given charges are located in body tissue of dielectric constant 7.0. B) What is the magnitude of the force exerted on a sodium ion (charge +1.6×10−19C) at that point?
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The heart has a dipole charge distribution with a charge of
+1.0×10−7C that is 6.1 cm...
The heart has a dipole charge distribution with a charge of +1.0×10−7C that is 6.1 cm...
The heart has a dipole charge distribution with a charge of +1.0×10−7C that is 6.1 cm above a charge of −1.0×10−7C. A) Determine the magnitude of the E⃗ field caused by the heart's dipole at a distance of 8.5 cm directly above the heart's positive charge. All charges are located in body tissue of dielectric constant 7.0. B) What is the magnitude of the force exerted on a sodium ion (charge +1.6×10−19C) at that point?
An African fish called the aba has a charge q=+1.3×10−7C at its head and an equal...
An African fish called the aba has a charge
q=+1.3×10−7C at its head and an equal magnitude negative
charge −q at its tail, as shown in (Figure 1). The fish
and position A are both underwater. Assume the charges to be
point-like. Determine the magnitude of the electric field at
position A. Determine the magnitude of the force exerted on a
hydroxide ion (charge −e) at point A.
An African fish called the aba has a charge q=+1.3×10−7C at its head and an equal...
An African fish called the aba has a charge q=+1.3×10−7C at its head and an equal magnitude negative charge −q at its tail, as shown in (Figure 1). The fish and position A are both underwater. Assume the charges to be point-like. A) Determine the magnitude of the electric field at position A. B) Determine the magnitude of the force exerted on a hydroxide ion (charge −e) at point A. 1.086 is not the answer because we have to take...
The dipole moment of the water molecule (H2O) is 6.17×10−30C⋅m. Consider a water molecule located at...
The dipole moment of the water molecule (H2O) is 6.17×10−30C⋅m. Consider a water molecule located at the origin whose dipole moment p⃗ points in the +x-direction. A chlorine ion (Cl−), of charge −1.60×10−19C, is located at x=3.00×10−9m. Assume that x is much larger than the separation d between the charges in the dipole, so that the approximate expression for the electric field along the dipole axis can be used. Find the magnitude of the electric force that the water molecule...
Problem 2: An imaginary particle π has mass m 5 x 10-27 kg and charge q...
Problem 2: An imaginary particle π has mass m 5 x 10-27 kg and charge q +3c 4.8x 10-19 C. Compare the magnitude of the electric repulsion between two π particles with that of gravitational attraction between them. Problem 3: Two equal charges 22 x 10-6 C are located at -0, y 0.3 m and z 0, V0.3 m respectively. What are the magnitude and direction of the total electric force that q1 and g2 exert on a third charge...
please answer these all of these. Answer all please 16. Dr. Evil has a 2400 kg...
please answer these all of these. Answer all please
16. Dr. Evil has a 2400 kg satellite in a circular orbit 950 km above the surface of the Earth. re = 6.38 x 10m a) How much work must be done to move the satellite from Earth to that orbit? b) What is the binding energy of the satellite in that orbit? c) Calculate the escape velocity of the satellite from Earth's potential well while it is in its orbit....
An African fish called the aba has a charge
q=+1.3×10−7C at its head and an equal magnitude negative
charge −q at its tail, as shown in (Figure 1). The fish
and position A are both underwater. Assume the charges to be
point-like. Determine the magnitude of the electric field at
position A. Determine the magnitude of the force exerted on a
hydroxide ion (charge −e) at point A.
Problem 2: An imaginary particle π has mass m 5 x 10-27 kg and charge q +3c 4.8x 10-19 C. Compare the magnitude of the electric repulsion between two π particles with that of gravitational attraction between them. Problem 3: Two equal charges 22 x 10-6 C are located at -0, y 0.3 m and z 0, V0.3 m respectively. What are the magnitude and direction of the total electric force that q1 and g2 exert on a third charge...
please answer these all of these. Answer all please
16. Dr. Evil has a 2400 kg satellite in a circular orbit 950 km above the surface of the Earth. re = 6.38 x 10m a) How much work must be done to move the satellite from Earth to that orbit? b) What is the binding energy of the satellite in that orbit? c) Calculate the escape velocity of the satellite from Earth's potential well while it is in its orbit....
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