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The shape of RF waves?
Even advanced (3rd year degree level) textbooks, such as Ramo, Whinnery and
Van Duzer's "Fields and Waves in Communications Electronics" (Which was a 3rd-year textbook me in 1972) discuss the wavefron as it might appear some distance away from antennae in the (very) far field. What, though, is the shape of the emitted wave close-in to antennae? For example, at opposite ends of a half-wave dipole, the electric filds are equal and opposite, so cannot be producing the same part of the expanding wave. Might such an analysis reveal the reason why short antennae are poor radiatiors of RF? |
The shape of RF waves?
"gareth" wrote:
Even advanced (3rd year degree level) textbooks, such as Ramo, Whinnery and Van Duzer's "Fields and Waves in Communications Electronics" (Which was a 3rd-year textbook me in 1972) discuss the wavefron as it might appear some distance away from antennae in the (very) far field. What, though, is the shape of the emitted wave close-in to antennae? For example, at opposite ends of a half-wave dipole, the electric filds are equal and opposite, so cannot be producing the same part of the expanding wave. Might such an analysis reveal the reason why short antennae are poor radiatiors of RF? Twaet. -- STC // M0TEY // twitter.com/ukradioamateur |
The shape of RF waves?
On 9/16/2015 9:42 AM, Stephen Thomas Cole wrote:
"gareth" wrote: Even advanced (3rd year degree level) textbooks, such as Ramo, Whinnery and Van Duzer's "Fields and Waves in Communications Electronics" (Which was a 3rd-year textbook me in 1972) discuss the wavefron as it might appear some distance away from antennae in the (very) far field. What, though, is the shape of the emitted wave close-in to antennae? For example, at opposite ends of a half-wave dipole, the electric filds are equal and opposite, so cannot be producing the same part of the expanding wave. Might such an analysis reveal the reason why short antennae are poor radiatiors of RF? Twaet. It is better to light a single candle than to curse the darkness. -- Rick |
The shape of RF waves?
On 9/16/2015 11:47 AM, rickman wrote:
On 9/16/2015 9:42 AM, Stephen Thomas Cole wrote: "gareth" wrote: Even advanced (3rd year degree level) textbooks, such as Ramo, Whinnery and Van Duzer's "Fields and Waves in Communications Electronics" (Which was a 3rd-year textbook me in 1972) discuss the wavefron as it might appear some distance away from antennae in the (very) far field. What, though, is the shape of the emitted wave close-in to antennae? For example, at opposite ends of a half-wave dipole, the electric filds are equal and opposite, so cannot be producing the same part of the expanding wave. Might such an analysis reveal the reason why short antennae are poor radiatiors of RF? Twaet. It is better to light a single candle than to curse the darkness. But remember, you cannot win an argument with an ignorant person. |
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