foveole的音標(biāo)是["fo?v?(r)l] ，基本翻譯是“蜂窩眼窩”，速記技巧是“fovea+ole”可以聯(lián)想到眼窩。

Foveole這個詞可能是由拉丁語或法語詞綴構(gòu)成的合成詞。它可能表示“眼窩”或“眼瞼”等眼部結(jié)構(gòu)，加上“小”或“微小”的意思。然而，沒有足夠的上下文來確定其確切的含義。

變化形式：在詞形上，foveole可能沒有明顯的變化形式。

相關(guān)單詞：

1. Fovea - 眼窩，眼瞼，凹穴

2. Microscope - 顯微鏡

3. Microorganism - 微生物

4. Micron - 微米

5. Microchip - 微芯片

6. Microwave - 微波

7. Microbiology - 微生物學(xué)

8. Microeconomics - 微觀經(jīng)濟(jì)學(xué)

9. Microprocessor - 微處理器

10. Micrometeorology - 微氣象學(xué)

以上這些單詞都與“微小”或“細(xì)節(jié)”有關(guān)，與foveole有某種程度的關(guān)聯(lián)。這些單詞在各自的領(lǐng)域中非常重要，涉及到微觀尺度下的研究。

至于foveole的具體含義和用途，需要更多的上下文信息才能給出更準(zhǔn)確的解釋。

常用短語：

1. fovea centralis

2. 目光集中

3. 目光注視

4. 目光聚焦

5. 目光注視著

6. 目光鎖定

7. 目光追隨

雙語例句：

1. The fovea centralis of the eye is the most sensitive area for visual stimuli. (眼睛中央凹是對視覺刺激最敏感的區(qū)域。)

2. The subject"s gaze was fixed on the target throughout the experiment. (實驗過程中，實驗對象的目光一直鎖定在目標(biāo)上。)

3. The photographer"s gaze followed the movement of the subject"s hand as it traced a pattern on the canvas. (攝影師的目光隨著實驗對象的手在畫布上描繪圖案而移動。)

4. The foveoless bird"s gaze was fixed on the ground as it searched for food. (無眼斑鳥在尋找食物時，目光一直鎖定在地面上。)

5. The fovea is responsible for fine detail recognition and motion detection. (中央凹負(fù)責(zé)精細(xì)細(xì)節(jié)的識別和運動檢測。)

6. The gaze of the audience was fixed on the performer as they performed their dance routine. (觀眾的目光一直注視著表演者，看著他們表演舞蹈。)

7. The photographer"s gaze followed the movement of the dancer as she performed her routine on stage. (攝影師的目光隨著舞者在舞臺上表演的動作而移動。)

英文小作文：

Fovea: The Eye"s Sense of Detail

The fovea is a specialized area in the center of the eye"s retina that is responsible for fine detail recognition and motion detection. It is the most sensitive region for visual stimuli and allows us to perceive details that are otherwise invisible to the naked eye. Whether it is reading a book, watching a movie, or simply observing our surroundings, the fovea helps us to see with incredible precision and detail.

The fovea is also crucial for driving and navigation, as it allows us to perceive objects at close range with incredible accuracy. When we drive, we use the fovea to see traffic lights, signs, and other objects up close with incredible precision, ensuring safe driving and preventing accidents.

However, the fovea is not without its limitations. It cannot perceive objects at a distance or in low light conditions as effectively as other parts of the retina. This is why we need to rely on our peripheral vision and other senses to navigate in dimly lit environments or when driving at night.

In conclusion, the fovea is an incredible tool that allows us to see with incredible precision and detail, whether it is for work or leisure activities. Understanding its role and limitations can help us to better appreciate its capabilities and make better use of it to achieve our goals and objectives.