Using components from all three types of eukaryotes organisms,
design an ideal organism, and explain your choices
The ideal organism will be having a cell wall which will help it to withstand the osmotic imbalances. It would also be having chloroplast which will enable the organism to prepare food for itself. It will also be having loads of mitochondria which will help it to produce a large amount of energy. Organism will have an ability to produce spores as spores can withstand high temperatures. Organism should also have hyphae which will help them to obtain nutrients from the surface easily. Organism should be multicellular and should have an ability to fight off infections.
Using components from all three types of eukaryotes organisms, design an ideal organism, and explain your...
Pick at least TWO characteristics from each of the following types of eukaryotic organisms: algae, protozoa, fungi Use the characteristics to design an ideal microorganism. Explain WHY you chose each characteristic (In other words, why is this the "best" option for your organism?) Be sure to fully explain your answer and cite any sources used.
From the list below, choose two organisms or cell types and discuss what makes them unique compared to the cells you have observed in your lab. You will need to use all your available resources in order to find information about these cells. Please limit your responses to one paragraph each. You must choose one prokaryote and one eukaryote. List Prokaryotes: Acinetobacter baumannii Paenibacillus polymyxa Spirilum vultans Eukaryotes: Valonia ventricosa Pyramidal neuron Erythrocyte
Please design an imaginary "super organism" that is well adapted to one of the following three scenarios. Think of the environmental pressures and add a legend to your drawing that details at least three adaptations that benefit your super organism. Pick one scenario from below and attach a file (e.g. photo) of your drawing and legend. tropical male bird with shortage of female mates plant in prairie with many browsing bison rodent in a dry and hot desert environment
PartA Design a series RLC bandpass filter using only three components from Appendix H that comes closest to the filter with a quality factor of 2 and a center frequency of 8 kHz Choose L 10 mH. Then, what is the value of C? vec AF Submit Request Answen Part B What is the value of R? vec Problem 14.28 Part Design a series RLC bandpass filter using only three components from Appendix H that comes closest to the filter...
urgent
A wastewater treatment bioreactor is designed to conduct phosphorus removal by using organisms A and B. Given that with the following parameters: Heterotrophic synthesis yield, Y = 0,40 g VSSIG COD Endogenous decay coefficient, Kd = 0.08 g VSS/g VSS day SRT = 5 days Biomass produced = [Y/(1+(K.) SRT)] x (bCOD or bsCOD) Phosphorus content of organism A: 0.30 g Plg VSS Phosphorus content of organism B: 0.02 g Plg VSS Clarifier effluent VSS concentration = 8 g/m3...
Organisms are present in ballast water discharged from a ship according to a Poisson process with a concentration of 10 organisms/m (the article "Counting at Low Concentrations. The Statistical Challenges of Verifying Ballast Water Discharge Standards" considers using the Poisson process for this purpose). (a) What the probability that one cubic meter of discharge contains at least 5 organisma? (Round your answer to three decimal places) (b) What is the probability that the number of organisms in 1.5 m of...
Organisms are present in ballast water discharged from a ship according to a Poisson process with a concentration of 10 organisms/m3 (the article "Counting at Low Concentrations: The Statistical Challenges of Verifying Ballast Water Discharge Standards"† considers using the Poisson process for this purpose). (a) What is the probability that one cubic meter of discharge contains at least 9 organisms? (Round your answer to three decimal places.) (b) What is the probability that the number of organisms in 1.5 m3...
Organisms are present in ballast water discharged from a ship according to a Poisson process with a concentration of 10 organisms/m3 (the article "Counting at Low Concentrations: The Statistical Challenges of Verifying Ballast Water Discharge Standards"† considers using the Poisson process for this purpose). (a) What is the probability that one cubic meter of discharge contains at least 9 organisms? (Round your answer to three decimal places.) (b) (THIS IS THE ONE I GOT WRONG) What is the probability that...
Organisms are present in ballast water discharged from a ship according to Poisson process with a concentration of 10 organisms/m3 (the article "Counting at Low Concentrations: The Statistical Challenges of Verifying Ballast Water Discharge Standards" considers using the Poisson process for this purpose). What is the probability that one cubic meter of discharge contains at least 6 organisms? (Round your answer to three decimal places.) (b) What is the probability that the number of organisms in 1.5 m3 of discharge...
Organisms are present in ballast water discharged from a ship according to a Poisson process with a concentration of 10 organisms/m3 (the article "Counting at Low Concentrations: The Statistical Challenges of Verifying Ballast Water Discharge Standards"+ considers using the Poisson process for this purpose). (a) What is the probability that one cubic meter of discharge contains at least 6 organisms? (Round your answer to three decimal places.) (b) What is the probability that the number of organisms in 1.5 mºof...