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Accurately draw the field (both scalar equipotential and vector electric) lines between a positive point charge and an infinite grounded conducting plane. Briefly explain how you
Perform the degree-of-freedom analysis for the above described process.
A 2.00kg projectile is launched from the earth's surface with an initial velocity of 38m/s at an angle of 45 degrees with respect to the horizon. The projectile lands on the ground some distance aw
How can an atom be ionized by an electric field? How strong does this E-field have to be? Hint: Assume that the binding energy is equivalent to the electrical potential energy of the atom.
In a autocollimation experiment, a thin convex lens is placed 25 cm from a pinhole that acts as a point source of light. A plane mirror placed 20 cm behind the lens reflects the light back through t
By looking at your plot, write down the mathematical equation that describes the E-field for this point charge in this situation. Hint: derive it by only looking at the shape of the field.
A point source is located 25 cm from the surface of a cylindrical detector along the cylindrical axis. The subtended solid angle for this geometry is 0.15 steradians. What is the radius of the detec
a) Show that the fourier transform of a antihermitian function is imaginary with no symmetry.
What is the Bragg scattering angle for electrons scattered from a nickel crystal if their energy is each of the following? (a) 65 eV (b) 104 eV
What is the Bragg scattering angle for electrons scattered from a nickel crystal if their energy is each of the following?
Two grounded conducting plans meet at an angle 90 degrees at the origin. A point charge q is a distance r0 from the origin along their angular bisector for r >> r0. What is the r dependence o
Assume you have a perfectly isolated, closed system under reversible and isothermal conditions where pV^(0.8) = 5000kJm^(-0.6). You start with the system at p1 = 100kPa.
What is the kinetic energy of the cart at the end of the 1.2m motion? Show your calculations and give units.
Assume you have a perfectly isolated, closed system under reversible and isothermal conditions where pV 0.8 = 5000kJm?0.6. You start with the system at p1 = 100kPa.
A wire is formed into a circle having a diameter of 15.0 cm and placed in a uniform magnetic field of 2.90 mT. The wire carries a current of 5.00 A. (a) Find the maximum torque on the wire.
What is the value of the poential energy of the object when it is 0.5m above the floor?
Tarzan swings on a vine from a cliff to rescue Jane, who is standing on the ground surrounded by snakes. His plan is to push off the cliff, grab Jane at the lowest point of his swing, and carry them
A billiard ball of mass 0.162 kg has a speed of 1.31 m/s and collides with the side of the billiard table at an angle of ?1 = 40.1°. For this collision, the coefficient of restitution is 0.841.
A copper wire is placed to be parallel to the x-axis. The magnetic field is in the y-axis. When this copper wire is moving in the z-direction, in which direction the conducting electrons in the copp
If the railway gun was at rest before firing and moved to the right at a speed of 4.33 m/s immediately after firing, what was the speed of the projectile as it left the barrel (muzzle speed)? Assume
An m = 6.70-kg clay ball is thrown directly against a perpendicular brick wall at a velocity of 22.0 m/s and shatters into three pieces, which all fly backward, as shown in the figure.
You are a police officer. Your squad car is at rest on the shoulder of an interstate highway when you notice a car speeding past you at 85 mph
Imagine that a car's x-acceleration during a certain time period is given by the function ax(t)=-bt. If the car's x-velocity at t=0 is 32 m/s, and b=1m/s^3, how long will it take the car to come to