hairlike cilium

hairlike cilia的音标是[ˈheəlaɪk ˈsɪlɪə]，翻译成中文是“像发丝一样的纤毛”。速记技巧是：like是“像”的意思，加上后缀-like，再加个前缀hair，cilium是“纤毛”的意思。

Hairlike cilia的英文词源可以追溯到拉丁语“ciliatus”，意为“有细毛的”。这个词源于“cilius”，意为“小毛”。变化形式包括复数“cilia”和过去式、过去分词“ciliated”和“ciliated”。

相关单词：

- “microcilia”意为微小的毛发状突起，描述非常细小的毛发状结构。

- “cilium-like”意为类似于毛发的结构，常用于描述与毛发类似的生物结构。

- “cilium-like cilia”意为类似于纤毛的毛发状结构，通常用于描述生物体中的特定细胞器。

以上这些单词都与hairlike cilia有着密切的联系，描述了毛发或类似毛发的各种形态和结构。这些单词的出现和使用也反映了生物学领域对于毛发和相关结构的深入研究。

短语：

1. hair-like hairlike cilia

2. hair-like extensions

3. hair-like bristles

4. hair-like projections

5. hair-like fronds

6. hair-like fibers

7. hair-like filaments

例句：

1. The hairlike cilia on the surface of the cell were clearly visible under a microscope.

2. The extensions on her skin looked like hair-like bristles.

3. The projections on the surface of the rock were hair-like in appearance.

4. The hair-like fronds of the plant swayed in the breeze.

5. The fibers in the material felt like hair-like filaments.

6. The fine hairlike filaments of the spider"s web caught the light beautifully.

7. The delicate hairlike cilia of the fish were used to sense water movement.

英文小作文：

Title: Hairlike Cilia: Mystical Sensors of Aquatic Life

Hairlike cilia are delicate sensors that allow aquatic creatures to sense water movement and other environmental changes. These tiny extensions on their cell surfaces act like tiny propellers, detecting subtle changes in their surroundings and sending signals to the brain for further action. From tiny fish to large whales, hairlike cilia play a crucial role in their survival and adaptation to their environment.

When we observe these sensors under a microscope, we can see how delicate and intricate they are. They resemble tiny strands of hair, each with its own unique motion, reacting to the slightest changes in the water around them. These sensors allow these creatures to avoid predators, find food, and adapt to their changing environments.

In conclusion, hairlike cilia are incredible sensors that allow aquatic creatures to survive and thrive in their watery world. Understanding these sensors could lead to new technologies that could help us better understand our own environment and adapt to changes that we may encounter in the future.