ExampleFind the de Broglie wavelength associated with(1) A 46gm golf ball with velocity 36 m/sec.m = 0.046 Kgh2=-6.63×10-34 sec0.046 Kg x36m / sec(2) An electron with a velocity 107 m/sec.muλ==h_muOLRICH•W/20 الولهالك k2VSDMI--= 4×10-34 n6.63×10-³4 J.sec9.1×10-³¹ Kg ×107 m/sec¹m. a = ax0.0-822.1)=NsD810.0== 7.3×10-¹¹ m.Home Work: from the results, do you expect there is a wave aspects inthe two cases? Why?

For part a) The wavelength of the golf ball is so small as compared with its dimensions that we…

Find the de Broglie wavelength associated with (1)A 46gm golf ball with velocity 36 m/sec. m = 0.046 Kg h 6.63×10-34 sec 2=- = mu 0.046 Kg x36m / sec (2) An electron with a velocity 107 m/sec. 2=- h mu 20 الولهالك k2 TSDMI= 100221= = 4×10-³4 m. =3X 0-822.0)= NsD818.0= 6.63×10 -34 J.sec 9.1x10-31 Kg x 10¹ m / sec = 7.3×10-¹¹ m. Home Work: from the results, do you expect there is a wave aspects in the two cases? Why?

Find the de Broglie wavelength associated with (1)A 46gm golf ball with velocity 36 m/sec. m = 0.046 Kg h 6.63×10-34 sec 2=- = mu 0.046 Kg x36m / sec (2) An electron with a velocity 107 m/sec. 2=- h mu 20 الولهالك k2 TSDMI= 100221= = 4×10-³4 m. =3X 0-822.0)= NsD818.0= 6.63×10 -34 J.sec 9.1x10-31 Kg x 10¹ m / sec = 7.3×10-¹¹ m. Home Work: from the results, do you expect there is a wave aspects in the two cases? Why?

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Question

Example
Find the de Broglie wavelength associated with
(1) A 46gm golf ball with velocity 36 m/sec.
m = 0.046 Kg
h
2=-
6.63×10-34 sec
0.046 Kg x36m / sec
(2) An electron with a velocity 107 m/sec.
mu
λ==
h
_
mu
OLRICH•W/
20 الولهالك k2
VSDMI-
-= 4×10-34 n
6.63×10-³4 J.sec
9.1×10-³¹ Kg ×107 m/sec
¹m. a = ax
0.0-822.1)=
NsD810.0=
= 7.3×10-¹¹ m.
Home Work: from the results, do you expect there is a wave aspects in
the two cases? Why?

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