Q:-3(a)-An electron moves in the x direction with a speed of 2.8 x 106 m/s. We can measure its speed to a precision of 2 %. With what precision can we simultaneously measure its x coordinate? (b)- Repeat the calculations of the previous example in the case of a pitched baseball (m = 0.135 %3D kg) moving at a speed of (44.5 m/s). Again assume that its speed can be measured to a precision o 2 % (c) What is vour comment on the result in part (a) and (b) from the point of view of quantum
Q:-3(a)-An electron moves in the x direction with a speed of 2.8 x 106 m/s. We can measure its speed to a precision of 2 %. With what precision can we simultaneously measure its x coordinate? (b)- Repeat the calculations of the previous example in the case of a pitched baseball (m = 0.135 %3D kg) moving at a speed of (44.5 m/s). Again assume that its speed can be measured to a precision o 2 % (c) What is vour comment on the result in part (a) and (b) from the point of view of quantum
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Transcribed Image Text:Q:-3(a)-An electron moves in the x direction with a speed of 2.8 x 106 m's. We can measure its
speed to a precision of 2 %. With what precision can we simultaneously measure its x coordinate?
(b)- Repeat the calculations of the previous example in the case of a pitched baseball (m = 0.135
kg) moving at a speed of (44.5 ms). Again assume that its speed can be measured to a precision of
2 %
(c) What is your comment on the result in part (a) and (b) from the point of view of quantum
mechanics?
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