LPO stands for Lowest Price Offer while HPO stands for Highest Price Offer. These are pricing mechanisms used within Microsoft advertising to help advertisers achieve specific objectives such as maximizing volume or profitability. LPO and HPO allow advertisers to set price boundaries for their bids based on their goals.
The total magnification of a low power objective (LPO) is typically around 100x, a high power objective (HPO) is around 400x, and an oil immersion objective (OIO) can be up to 1000x. This means an oil immersion objective provides the highest magnification among the three.
The apical cells of hydrilla are elongated and cylindrical, forming the growing tip of the plant. Marginal cells are rectangular and arranged in a single file along the leaf margin, helping to provide structural support to the leaf.
If the total magnification is 200x and the objective has a magnification of HPO, then the eyepiece would have a magnification of 200/HPO. So, if the objective has a magnification of 20x (assuming HPO=20), then the eyepiece would have a magnification of 200/20 = 10x.
"HPO" can refer to the Human Phenotype Ontology, a standardized vocabulary of phenotypic abnormalities encountered in human diseases. It includes terms such as "intellectual disability" and "short stature." Researchers use HPO to describe and analyze human phenotypes in a consistent manner, aiding in the diagnosis and study of genetic disorders.
You should adjust the fine focus knob to sharpen the image when viewing the onion cell under high-power objective (HPO) on a microscope. Rotate the knob gently to focus the specimen until the image appears clear.
The letter "e" is magnified twice under the LPO and twice again under the HPO, resulting in a total magnification of four times under both lenses.
The LPO will be shorter than HPO lens. LPO= magnifies 10x lenses HPO= magnifies 43x lenses
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The magnification of the specimen under low power optics, lpo, is 10 times and the magnification of the specimen under high power optics, hpo, depends on the power of the microscope but is usually at least 500 times or more.
When talking about the IPO and HPO, it is referring the magnification of a microscope. You can tell the difference of the two, because the LPO is shorter than the HPO.
The HPO (high-power objective) has a higher magnification than the LPO (low-power objective) in a microscope. This means that the HPO will show a smaller area but with more detail compared to the LPO.
it is usually shorter than the HPO..
In HPO, it has a rectangular shape and in LPO, it is elongated shape in LPO.
LPO typically has a longer working distance compared to HPO, as LPO is designed for lower magnification levels and wider field of view, requiring the lens to be farther away from the specimen to capture the image. HPO, being designed for higher magnification levels, typically has a shorter working distance to achieve higher resolution and magnification.
When viewed under the Low Power Objective (LPO), the image of the specimen appears larger and allows for a broader field of view, making it easier to locate and assess the overall structure and layout of the specimen. In contrast, the High Power Objective (HPO) provides a more magnified and detailed view, allowing for closer examination of specific features or cells within the specimen. However, the field of view is smaller under HPO, making it necessary to reposition the slide to observe different areas. Overall, LPO is useful for initial observations, while HPO is essential for detailed analysis.
The total magnification of a low power objective (LPO) is typically around 100x, a high power objective (HPO) is around 400x, and an oil immersion objective (OIO) can be up to 1000x. This means an oil immersion objective provides the highest magnification among the three.
When an objective lens in a light-path objective (LPO) microscope is shifted from the Low Power Objective (LPO) to the High Power Objective (HPO), the image becomes magnified and the field of view decreases. This results in higher magnification but a smaller area of the specimen being visible at once.