The concentration of a biomolecule inside a rod-shaped prokaryotic cell is 0.0031 M. Calculate the number...

The concentration of a biomolecule inside a rod-shaped prokaryotic cell is 0.0021 M. Calculate the number...

The concentration of a biomolecule inside a rod-shaped prokaryotic cell is 0.0021 M. Calculate the number of molecules inside the cell, which is 4.1 μm long and 1.3 μm in diameter.

The concentration of a biomolecule inside a rod‑shaped prokaryotic cell is 0.0051 M . Calculate the...

The concentration of a biomolecule inside a rod‑shaped prokaryotic cell is 0.0051 M . Calculate the number of molecules inside the cell, which is 2.7 μm long and 1.7 μm in diameter.

The concentration of a biomolecule inside a rod-shaped prokaryotic cell is 0.0015M. Calculate the number of...

The concentration of a biomolecule inside a rod-shaped prokaryotic cell is 0.0015M. Calculate the number of molecules inside the cell which is 4.8um long and 1.2um in diameter.

Calculate the emf of the following concentration cell: Mg(s) | Mg2+(0.32 M) || Mg2+(0.45 M) |...

Calculate the emf of the following concentration cell: Mg(s) | Mg2+(0.32 M) || Mg2+(0.45 M) | Mg(s) V

A prokaryote has a Gram-negative cell wall and a basic cell membrane, is spiral shaped, and...

A prokaryote has a Gram-negative cell wall and a basic cell membrane, is spiral shaped, and has two polar flagella. Referring to the Prokaryote Dichotomous Key from your lab manual, what is the identity of this organism? Select one: a. Helicobacter pylori b. Spirillum volutans c. Vibrio cholerae d. Listeria monocytogenes e. Rhodospirillum rubrum A prokaryote has a Gram-positive cell wall, a basic cell membrane, is rod shaped, and has multiple flagella. Referring to the Prokaryote Dichotomous Key from your...

The concentration of an undiluted sample is 26.4 mg/ml. To calculate that answer, the concentration of...

The concentration of an undiluted sample is 26.4 mg/ml. To calculate that answer, the concentration of the diluted sample was multiplied by the dilution factor. Knowing that the dilution factor is 2, work backwards to determine the concentration of the DILUTED sample. A. 13.2 mg/ml B. 132.0 mg/ml C. 1.32 mg/ml D. 26.4 mg/ml What is the unit used to describe cell solutions measured in a spectrophotometer? Cells/milliliter Grams (g) Optical density (OD) Meters (m) Spectroscopy is based on the...

Calculate the Cd2+ concentration in the following cell if Ecell = 0.23 V. Cd(s)|Cd2+(x M)||Ni2+(1.00 M)|Ni...

Calculate the Cd2+ concentration in the following cell if Ecell = 0.23 V. Cd(s)|Cd2+(x M)||Ni2+(1.00 M)|Ni a. 0.0019 M b. 1.4 x 10-5 M c. 0.0036 M d. 0.015 M e. 0.0086 M

Table 1 25c HCl Concentration (M) Cell Potential (mV) ln(M) 1 389.3 0 0.1 340.7 -2.302585093...

Table 1 25c HCl Concentration (M) Cell Potential (mV) ln(M) 1 389.3 0 0.1 340.7 -2.302585093 0.01 292 -4.605170186 0.001 249.1 -6.907755279 0.0001 215.7 -9.210340372 A) Obtain the value of the ideal gas constant (R) in units of joules per mole-kelvin and the value of the Faraday constant (F) in units of coulomb per mole. Calculate the ratio of these constants: R/F. Use the fact that one volt is one joule per coulomb to calculate the units of R/F. B)...

10. Air is to be heated by passing it over a bank of 2.8-m-long tubes inside...

10. Air is to be heated by passing it over a bank of 2.8-m-long tubes inside which steam is condensing at 90ºC. Air approaches the tube bank in the normal direction at 20ºC and 1 atm with a mean velocity of 5.2 m/s. The outer diameter of the tubes is 1.6 cm, and the tubes are arranged staggered with longitudinal and transverse pitches of SL = ST= 4 cm. There are 30 rows in the flow direction with 10 tubes...

1.) You will work with 0.10 M acetic acid and 17 M acetic acid in this...

1.) You will work with 0.10 M acetic acid and 17 M acetic acid in this experiment. What is the relationship between concentration and ionization? Explain the reason for this relationship 2.) Explain hydrolysis, i.e, what types of molecules undergo hydrolysis (be specific) and show equations for reactions of acid, base, and salt hydrolysis not used as examples in the introduction to this experiment 3.) In Part C: Hydrolysis of Salts, you will calibrate the pH probe prior to testing...