The heights of all plants rise as time passes (except for plant B on day 6). Just because the plants grow doesn't mean that the day changes.
There is not enough data available. Given that Ammonia's adverse consequences were ultimately established, you cannot presume it will function at its best. The combined effects of the two substances have not been studied.
Both scientists are likely correct if the temperature is still rising but is increasing at a rate that is connected with variations in the earth's orbit. Temperature fluctuations show that Scientist 1 is correct whereas a steady rise in temperature points to Scientist 2 being right.
The control setting for the experiment would be less effective if one plant species had a different preference for light because the experiment's design keeps light consistent for all three plant species.
Even though there is some variance, the rainfall averages around 30 inches when we look at the graph's curve between 20 and 60 degrees. Therefore, we may say that the rainfall at these latitudes is roughly same.
Given that rising temperatures are linked to rising levels of greenhouse gases, a graph showing a positive correlation between the two is suggestive of a link between rising greenhouse gas output and global warming.
The data would need to demonstrate that calcium boosted the gene activity in order to validate the theory. Plate B contains a growth medium with added calcium, therefore greater gene activity in those plates would confirm the theory.
Every wave, regardless of its frequency, travels at the same speed of 299,792,458(m/s). The newly found wave would travel at a speed of 299,792,458(m/s).
Locate 23.5 degrees on the x-axis and the appropriate amount of rainfall on the y-axis to get the difference in rainfall between these two latitudes (25 inches). Find the North Pole's latitude (90 degrees) and the equivalent amount of rainfall next (10 inches). Lastly, divide the result by two to determine how much more rain falls at the Tropic of Capricorn: 25−10=15 in
Both scientists agree that there has been global warming over the past century, but one thinks it is a result of variations in the earth's orbit while the other thinks that man is to blame for the rise in temperatures.
It will be essential to compare the average temperature change over an extremely long period of time because the orbital variance changes so slowly (over thousands of years). Although an orbital variances diagram could be intriguing, it doesn't provide any useful information for understanding climate change.
The plant's height is the correct answer. What kind of chemical was added to the plant DEPENDS on the height of the plant. Because the scientist had control over which chemical went into each plant, the type of chemical added was the independent variable.
Near the equator, rainfall peaks (zero degrees). The poles (90 and 90 degrees) have the lowest points.
The highest levels of decomposition are found in the tree species with the highest average rainfall (Morus rubra, Juniperus scopulorum, and Tsuga canadensis) (3.21, 4.03, and 2.38.) Keep in mind that the experiment approximates the termite population using the degree of disintegration.
Find 35 inches on the Rainfall y-axis. Find each related x-coordinate and the point on the graph where this y-coordinate touches the curve. There are three: degrees 55, 20, and 20. It is not an option, even though 50 degrees also equates to nearly 35 inches of rain.
Burning coal for energy during the Industrial Revolution in the early 1900s led to a rise in greenhouse gas emissions. Additionally, the population growth has accelerated deforestation, which has decreased the amount of plants and trees that absorb carbon dioxide. There isn't much evidence connecting ozone layer loss to climate change as of now.
The only plant with enhanced height growth in Medium C was Plant 1. When in Medium C, Plants 2 and 3 had shorter heights.
The data representation would be improved by each of the given possibilities.
The chart shows that the levels of decomposition for species with a shade tolerance (ST) are higher than those for species with an intermediate shade tolerance (IS).
The data does not provide enough information to determine if the growth of the cancer cells in any of the three groups was uniform. Depending on their size, stage, and other variables, cancer cells can develop at various rates.
By using a reference plate, the researchers could verify that the vectors were applied appropriately and that the yeast cells were healthy and capable of expanding despite variations in calcium concentration.