The DNA molecule is spiral-shaped, like a spring. A 10 -μm -long DNA molecule has an effective spring constant of 10x10^−8 N/m. Suppose a positive ion of charge +e is attached on one end of the molecule and a positive ion of charge +e is attached on the other end. What distance is the DNA stretched because of the electrical repulsion of these two ions?
The DNA molecule is spiral-shaped, like a spring. A 10 -μm -long DNA molecule has an...
A molecule of DNA (deoxyribonucleic acid) is 2.18 μm long. The ends of the molecule become singly ionized: negative on one end, positive on the other. The helical molecule acts like a spring and compresses 1.09% upon becoming charged. Determine the effective spring constant of the molecule.
A molecule of DNA (deoxyribonucleic acid) is 2.28 μm long. The ends of the molecule become singly ionized: negative on one end, positive on the other. The helical molecule acts like a spring and compresses 1.28% upon becoming charged. Determine the effective spring constant of the molecule.
A molecule of DNA (deoxyribonucleic acid) is 2.28 μm long. The ends of the molecule become singly ionized: negative on one end, positive on the other. The helical molecule acts like a spring and compresses 1.03% upon becoming charged. Determine the effective spring constant of the molecule.
A molecule of DNA (deoxyribonucleic acid) is 2.00 μm long. The ends of the molecule become singly ionized: negative on one end, positive on the other. The helical molecule acts like a spring and compresses 1.20% upon becoming charged. Determine the effective spring constant of the molecule.
A molecule of DNA (deoxyribonucleic acid) is 2.07 μm long. The ends of the molecule become singly ionized: negative on one end, positive on the other. The helical molecule acts like a spring and compresses 1.02% upon becoming charged. Determine the effective spring constant of the molecule.
A molecule of DNA (deoxyribonucleic acid) is 2.18 μm long. The ends of the molecule become singly ionized: negative on one end, positive on the other. The helical molecule acts like a spring and compresses 1.31% upon becoming charged. Determine the effective spring constant of the molecule. THE ANSWER IS NOT 1.696E-9
A molecule of DNA (deoxyribonucleic acid) is 2.06 μm long. The ends of the molecule become singly ionized: negative on one end, positive on the other. The helical molecule acts like a spring and compresses 1.34% upon becoming charged. Determine the effective spring constant of the molecule N/m Need Help? Read lt
A molecule of DNA (deoxyribonucleic acid) is 2.28 μm long. The ends of the molecule become singly ionized: negative on one end, positive on the other. The helical molecule acts like a spring and compresses 1.03% upon becoming charged. Determine the effective spring constant of the molecule. 1.864e-9 × Your response is within 10% of the correct value. This may be due to roundoff error, or you could have a mistake in your calculation. Carry out all intermediate results to...
A molecule of DNA (deoxyribonucleic acid) is 2.18 μm long. The ends of the molecule become singly ionized: negative on one end, positive on the other. The helical molecule acts like a spring and compresses 1.06% upon becoming charged. Determine the effective spring constant of the molecule. ______N/m Two small identical conducting spheres are placed with their centers 0.59 m apart. One is given a charge of 12 ✕ 10−9 C, the other a charge of −17 ✕ 10−9 C....
A molecule of DNA is 2.05 micrometers long. The ends of the molecule become singly ionized: negative on one end, positive on the other. The helical molecule acts like a spring and compresses 1.23% upon being charged. Determine the effective spring constant of the molecule.