Draw a solenoid cross-section and show its amperian loop as well as B and ds for...

The magnetic field inside a solenoid of circular cross section is given by B? =btk^, where...

The magnetic field inside a solenoid of circular cross section is given by B? =btk^, where b = 3.0 T/ms . At time t = 0.44 ?s , a proton is inside the solenoid at x = 4.6 cm , y= z=0 , and is moving with velocity v? = 4.3 j^Mm/s .

E14M.9 Consider an infinite solenoid with a rectangular (instead of circular) cross section. A)Does the mirror...

E14M.9 Consider an infinite solenoid with a rectangular (instead of circular) cross section. A)Does the mirror rule (see chapter E13) still imply that the solenoid’s magnetic field points parallel to the solenoid’s central axis? Explain your reasoning. B)Use Ampere’s law in integral form to determine the magnetic field both inside and outside the solenoid. Is the field inside this rectangular solenoid still uniform?

Explain what the physical meaning of a differential scattering cross section is, as well as a...

Explain what the physical meaning of a differential scattering cross section is, as well as a total scattering cross section. Estimate the size of a total cross section for 1) gravitational, 2) electromagnetic, 3) strong, or 4) weak.

A 2.10 mHmH toroidal solenoid has an average radius of 5.60 cmcm and a cross-sectional area...

A 2.10 mHmH toroidal solenoid has an average radius of 5.60 cmcm and a cross-sectional area of 2.80 cm2cm2. Part A How many coils does it have? In calculating the flux, assume that BB is uniform across a cross section, neglect the variation of BB with distance from the toroidal axis. Part B At what rate must the current through it change so that a potential difference of 2.80 VV is developed across its ends? Express your answer in amperes...

i'm confused with equation solenoid B= u.NI/L vs muti-loop B=u.NI/2PIR vs single-loop B=u.I/2R u. is mu(not)=...

i'm confused with equation solenoid B= u.NI/L vs muti-loop B=u.NI/2PIR vs single-loop B=u.I/2R u. is mu(not)= 4piE^-7 i don't know when to use each once of them. since only different is diving by L or 2piR or sometimes 2R really confused.

1. In Ampere’s law, when we integrate the magnetic field along a loop, which are summing?...

1. In Ampere’s law, when we integrate the magnetic field along a loop, which are summing?    a. the field components that are parallel to the path elements, at every point along the loop    b. the field components that are perpendicular to the path elements, at every point along the loop    c. the magnitudes of the field vectors at every point along the loop 2. Which describes the magnetic field at a point inside a long wire that...

1. In Ampere’s law, when we integrate the magnetic field along a loop, which are summing?...

1. In Ampere’s law, when we integrate the magnetic field along a loop, which are summing?    a. the field components that are parallel to the path elements, at every point along the loop    b. the field components that are perpendicular to the path elements, at every point along the loop    c. the magnitudes of the field vectors at every point along the loop 2. Which describes the magnetic field at a point inside a long wire that...

1. A bar magnet is dropped with its north end down through a horizontally oriented conductive...

1. A bar magnet is dropped with its north end down through a horizontally oriented conductive wire loop. Looking down on the loop, a) What is the direction of the current in the loop as the magnet approaches/enters the loop? Explain well. (Explain how Henz law works in detail) b) What is the direction of the current as the magnet falls out through the bottom of the coil? Explain well.

1. Let the vertical cross section ABCDA become trapezoidal by raising B vertically in such a...

1. Let the vertical cross section ABCDA become trapezoidal by raising B vertically in such a way that the elevations of points D and C are 0m , A is 100m, and B is 130m. Let AD, DC, and BC be impermeable and let AB represent a water table of constant slope (on which the hydraulic head equals the elevation). (a) Draw a quantitatively accurate flow net for this case. Label the equipotential lines with their correct h value. (b)...

A box section of length L = 6 m and cross-sectional dimensions of a = 54mm,...

A box section of length L = 6 m and cross-sectional dimensions of a = 54mm, b = 32 mm has wall thickness t = 3 mm. This box section is used as a part of structure, and it is subject to a load along its longitudinal axis. The K factor for the end conditions of the column is 0.25 . Calculate the buckling load of the column, which is made of a material with an elastic modulus of E...