important
this should help:Respiration slowed down when the temperature was reduced, and respiration increased when the temperature increased. The germinating pea seeds consumed the most oxygen. The vials containing the dry seeds and glass beads had the same result. When the germinating seed is cooled down however, the rate of oxygen consumption is reduced drastically because all of the cellular processes are slowed down from the cooler surroundings. The germinating seeds consumed almost no oxygen throughout the experiment in the 10-degree C water bath. In the room temperature water bath, the glass beads, and the dry pea seeds and glass beads consumed the least amount of oxygen (see chart 1). Which means that the germinating seeds would slow down their respiration rates because of the colder temperature. They consumed almost three times as much oxygen as the glass beads alone, and the glass beads and dry pea seeds.
The tube that contains only glass beads is called the control tube. It is used as a control in the germinating seed experiment to provide a baseline comparison for the experimental tube with seeds.
Take beads of two different colours eg 450 red and 50 yellow. The yellow beads represent animls which have been caught and marked. They are then 'released' thoroughly mixed with the red beads. You then take a random sample of the mixed beads in such a way that you cannot see the colour when you select them eg from a paper bag or with your eyes closed. You connt the number of red beads and yellow beads (the recaptured individuals) and calculate the total number of beads (the population size) using this formula: total number of organisms = [number in first sample x number in second sample] / number of organisms recaptured You can experiment with different sample sizes to see how reliable the method is.
Rubbing alcohol may take the sticky from new beads. The beads should be soaked and then scrubbed with a toothbrush, unless they are painted beads, which may lose their color.
Crystal beads grow bigger when they come into contact with water due to a process called hydration. Water molecules are absorbed by the crystal beads, causing them to swell and increase in size. This interaction between the water molecules and the crystal beads results in the expansion of the beads.
The beads don't go through cellular respiration so the amount of CO2 consumed is zero compared to the germinating peas whos CO2 intake is much higher because they are going through cell respiration.
this should help:Respiration slowed down when the temperature was reduced, and respiration increased when the temperature increased. The germinating pea seeds consumed the most oxygen. The vials containing the dry seeds and glass beads had the same result. When the germinating seed is cooled down however, the rate of oxygen consumption is reduced drastically because all of the cellular processes are slowed down from the cooler surroundings. The germinating seeds consumed almost no oxygen throughout the experiment in the 10-degree C water bath. In the room temperature water bath, the glass beads, and the dry pea seeds and glass beads consumed the least amount of oxygen (see chart 1). Which means that the germinating seeds would slow down their respiration rates because of the colder temperature. They consumed almost three times as much oxygen as the glass beads alone, and the glass beads and dry pea seeds.
The tube that contains only glass beads is called the control tube. It is used as a control in the germinating seed experiment to provide a baseline comparison for the experimental tube with seeds.
Take beads of two different colours eg 450 red and 50 yellow. The yellow beads represent animls which have been caught and marked. They are then 'released' thoroughly mixed with the red beads. You then take a random sample of the mixed beads in such a way that you cannot see the colour when you select them eg from a paper bag or with your eyes closed. You connt the number of red beads and yellow beads (the recaptured individuals) and calculate the total number of beads (the population size) using this formula: total number of organisms = [number in first sample x number in second sample] / number of organisms recaptured You can experiment with different sample sizes to see how reliable the method is.
Anal Beads
To create unique and colorful designs using melted beads art, you can start by arranging colorful beads in a pattern on a heat-resistant surface. Then, melt the beads using an oven or a heat gun until they fuse together. Experiment with different bead colors and arrangements to create your own distinctive designs.
Acid is used to clean glass beads to remove any surface contaminants or residues. It helps to break down and dissolve these substances, leaving the glass beads clean and ready to be used in various applications such as scientific experiments or jewelry making. Additionally, acid cleaning ensures that the glass beads are free from impurities that could affect the final product or experiment.
To create unique jewelry pieces using plastic beads that you melt with an iron, you can place the beads on a heat-resistant surface and use a hot iron to melt them together. Be careful not to overheat the beads, as they can burn or release harmful fumes. Experiment with different bead colors and shapes to create your own custom designs.
You can tell small beads from large beads because small beads are smaller than larger beads.Large beads are larger than small beads because they are large beads. You can tell the small beads that they are small beads and the large beads will then know that the small beads are small beads.
Some popular traditional games with beads played in different cultures around the world include Mancala in Africa, Pong Hau K'i in China, and Oware in Ghana. These games involve strategic moves with beads on a board or in a pattern to win.
put the beads in bacterial liquid culture for some day for adsorption. check the coating by conducting SEM surface topology.
250 red beads 2x250 = 500 blue beads (1/2)X250 = 125 yellow beads 250+500+125=875 Fran has 875 beads.