Examples of I Ching in the following topics:
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- Ceremonies and rituals based on the Five Classics, especially the I Ching, were strongly instituted.
- He did so in a book called Tao Te Ching, and was never seen again.
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- The name of the dynasty originated from the I Ching and describes the "origin of the universe" or a "primal force."
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- 300 CE: The oldest known version of the Tao Te Ching is written on bamboo tablets.
- 380 CE: Theodosius I declares Nicene Christianity the state religion of the Roman Empire.
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- Chinese collectors have noted a greater variety of Longquan ware and devised a special vocabulary to describe them such as meizi ching or "plum green" celadon.
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- Specifically, the Tao te Ching never speaks of a transcendent God, but of a mysterious and numinous ground of being underlying all things and that the divine is found in all aspects of nature.
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- It has its roots in the book of the Tao Te Ching (attributed to Laozi in the 6th century BCE) and the Zhuangzi.
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- $\displaystyle A \equiv \frac{E_f}{E_i} \sim \frac{4}{3} \langle \gamma^2 \rangle = 16 \left ( \frac{kT}{mc^2} \right )^2.$
- The probability that a photon will scatter as it passes through a medium is simply τes if the optical depth is low, and the probability that it will undergo k scatterings pk∼τesk and its energy after k scatterings is $E_k=A^k E_i$, so we have
- $\displaystyle I(E_k) = I(E_i) \exp \left ( \frac{\ln\tau_{es} \ln\frac{E_k}{E_i}}{\ln A} \right ) = I(E_i) \left ( \frac{E_k}{E_i} \right )^{-\alpha}$
- $\displaystyle P = \int_{E_i}^{A^{1/2}mc^2} I(E_k) dE_k = I(E_i) E_i \left [ \int_1^{A^{1/2} mc^2/E_i} x^{-\alpha} dx \right ].$
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- $\left( \mathbf{v}_i \mathbf{v}_i ^T \right) \mathbf{x} = (\mathbf{v}_i ^T \mathbf{x}) \mathbf{v}_i $
- For the operator $\mathbf{v}_i \mathbf{v}_i ^T thisisobviouslytruesince\mathbf{v}_i ^T \mathbf{v}_i = 1$ .
- $\displaystyle{\sum _ {i=1} ^ m \mathbf{v}_i \mathbf{v}_i ^T = V V^ T = I . }$
- $\displaystyle{\sum _ {i=1} ^ r \mathbf{v}_i \mathbf{v}_i ^T = V_r V_r ^ T }$
- $\displaystyle{\sum _ {i=r+1} ^ m \mathbf{v}_i \mathbf{v}_i ^T = V_0 V_0 ^T}$
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