For the following exercises, simplify the given expression. Write answers with positive exponents. 59. Planck's constant is an important unit of measure in quantum physics. It describes the relationship between energy and frequency. The constant is written as 6.62606957 × 10 − 34 . Write Planck’s constant in standard notation.
For the following exercises, simplify the given expression. Write answers with positive exponents. 59. Planck's constant is an important unit of measure in quantum physics. It describes the relationship between energy and frequency. The constant is written as 6.62606957 × 10 − 34 . Write Planck’s constant in standard notation.
For the following exercises, simplify the given expression. Write answers with positive exponents.
59. Planck's constant is an important unit of measure in quantum physics. It describes the relationship between energy and frequency. The constant is written as
6.62606957
×
10
−
34
. Write Planck’s constant in standard notation.
A/ Rewrite the following expression in terms of exponentials .
Write the final result as simply as you can ?
Cosh5 x +Sinh5 x+2sec5x
B/Solve the equation for x : Cosh x = Sinh x +1/2.
A ball is dropped from a height of 11 feet and bounces. Suppose that each bounce is 7/8 of the height of the bounce before. Thus, after the ball hits the floor for the first time, it rises to a height of
11()
= 9.625 feet, etc. (Assume g = 32ft/s and no air resistance.)
A. Find an expression for the height, in feet, to which the ball rises after it hits the floor for the nth time:
hn =
B. Find an expression for the total vertical distance the ball has traveled, in feet, when it hits the floor for the first, second, third and fourth times:
first time: D=
second time:D =
third time: D =
fourth time: D =
C. Find an expression, in closed form, for the total vertical distance the ball has traveled when it hits the floor for the nth time.
Dn =
Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, algebra and related others by exploring similar questions and additional content below.
How to determine the difference between an algebraic and transcendental expression; Author: Study Force;https://www.youtube.com/watch?v=xRht10w7ZOE;License: Standard YouTube License, CC-BY