it shows how they evolve into another
Fossil record: Shows a pattern of gradual change in species over time, supporting the idea of common ancestry and evolution. Comparative anatomy: Similarities in bone structure and body plans among different species suggest they share a common evolutionary history. DNA evidence: Genetic similarities between different species reveal evolutionary relationships and provide strong support for the theory of evolution.
Evidence for evolution includes the fossil record, comparative anatomy, embryology, genetics, and molecular biology. Fossils reveal transitional forms between species, while similarities in structures and developmental processes among different species provide clues to common ancestry. Genetics and molecular biology show similarities in DNA sequences and gene expression patterns, supporting the idea of shared ancestry among living organisms.
The support tissues in the body consist of connective tissues such as tendons, ligaments, and cartilage. These tissues provide structure and support for other tissues and organs in the body.
The muscular system and skeletal system work together to support the body's movement and structure. Muscles attach to bones and contract to move the bones, allowing the body to move. The skeletal system provides a framework for the muscles to attach to and supports the body's structure. This collaboration allows for coordinated movement and stability in the body.
There are 206 bones in the human body, which can be considered as "rods" providing structure and support.
Fossil record: Shows a pattern of gradual change in species over time, supporting the idea of common ancestry and evolution. Comparative anatomy: Similarities in bone structure and body plans among different species suggest they share a common evolutionary history. DNA evidence: Genetic similarities between different species reveal evolutionary relationships and provide strong support for the theory of evolution.
An internal body-support structure is called a skeleton. It provides support, protection, and structure for the body.
They all have a body structure.
organ system that give your body structure
endoskeleton
skeletal system
Evidence for evolution includes the fossil record, comparative anatomy, embryology, genetics, and molecular biology. Fossils reveal transitional forms between species, while similarities in structures and developmental processes among different species provide clues to common ancestry. Genetics and molecular biology show similarities in DNA sequences and gene expression patterns, supporting the idea of shared ancestry among living organisms.
a cell can make mistakes when it copies what in the dna
Hippos and whales share a common ancestor, which explains some of their similarities, such as body structure and certain physiological traits. Over millions of years, both groups adapted to their respective environments—hippos to semi-aquatic life and whales to fully aquatic life. These adaptations resulted in significant differences, including body shape, respiratory systems, and modes of locomotion, showcasing how evolution shapes organisms in response to their habitats while preserving shared lineage traits.
structure, support, and movement
they keep it up and give it structure and support
they give the body support