Answer:
Corn
Explanation:
I'm not 100% sure so lmk ig I'm right or wrong
The graph is a visual representation of information. It is shown by the x and y-axis. f(x)=x²+3.
<h3>
What is a graph?</h3>
The graph is a visual representation of information. It is shown by the x and y-axis. The given equation is f(x)=x²+3.
In first case, f(x)=x²+3, x = − 3
f(x)=x²+3
= (− 3 ) ² + 3
= 9+ 3
= 12
f(x)=x²+3 = (− 2 ) ² + 3
= 4+ 3
=7
f(x)=x²+3
= (− 1 ) ² + 3
= 1 + 3= 4
Therefore, The graph is a visual representation of information. It is shown by the x and y-axis.
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Ecosystems can be large and are made of biomes. Some examples of ecosystems are deserts and forests.
The surface of the cerebral hemispheres consists of ridges and grooves. The shallow grooves are called Sulci.
<h3>What is Cerebral Hemisphere?</h3>
The brain is formed by two cerebral hemispheres. It is separated by a groove called longitudinal fissure. The brain is divided into left and right cerebral hemispheres. These consist of an outer layer of gray matter called the cerebral cortex which is supported by an inner layer of white matter.
In placental mammals, the hemispheres are connected by the corpus callosum which is a very large bundle of nerve fibers.
There are three poles of the cerebral hemispheres:
1. The occipital pole
2. The frontal pole
3. The temporal pole
The thin layers of cells that cover the cerebral hemispheres are called the cerebral cortex. These raised ridges of tissue on the surface of the cerebral cortex are known as gyri while the shallower grooves are called sulci.
Thus, the surface of the cerebral hemispheres consists of ridges and grooves. The shallow grooves are called Sulci.
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True, the process is called the sliding filament model of muscle contraction.
According to the sliding filament theory, muscle proteins slide past one another to produce movement during muscular contractions. The sliding filament theory postulates that during muscle contraction, the actin (thin filaments) and myosin (thick filaments) of muscle fibers glide past each other while remaining at essentially constant lengths. A protein called myosin transforms ATP (chemical energy) into mechanical energy, causing movement and push. T
his motion causes the muscles to contract and non-muscle cells, like those in the mitosis and meiosis, to move (cell division). Additionally, the actin-myosin interaction and actin polymerization are what cause a cell to move across a surface. When troponin molecules link to calcium ions in filaments, actin filaments' myosin-binding sites become visible, promoting bridge construction. ATP serves as an energy source and powers this process. Myosin molecules' heads undergo ATP hydrolysis, changing their shape and allowing them to bind to actin filaments.
To learn more about the sliding filament theory. Click, brainly.com/question/14625676
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