Problem 8.25 MasteringPhysics 12 of 18 Problem 8.25 Experiments using \"optical
ID: 1288634 • Letter: P
Question
Problem 8.25 MasteringPhysics 12 of 18 Problem 8.25 Experiments using "optical tweezers" measure the elasticity of individual DNA molecules. For small enough changes in length, the elasticity has the same form as that of a spring. A DNA molecule is anchored at one end, then a force of 1.5nN(1.5
Problem 8.25 MasteringPhysics 12 of 18 Problem 8.25 Experiments using "optical tweezers" measure the elasticity of individual DNA molecules. For small enough changes in length, the elasticity has the same form as that of a spring. A DNA molecule is anchored at one end, then a force of 1.5nN(1.5
Problem 8.25 MasteringPhysics 12 of 18 Problem 8.25 Experiments using "optical tweezers" measure the elasticity of individual DNA molecules. For small enough changes in length, the elasticity has the same form as that of a spring. A DNA molecule is anchored at one end, then a force of 1.5nN(1.5 Problem 8.25 MasteringPhysics Problem 8.25 MasteringPhysics Problem 8.25 MasteringPhysics Problem 8.25 MasteringPhysics 12 of 18 Problem 8.25 Experiments using "optical tweezers" measure the elasticity of individual DNA molecules. For small enough changes in length, the elasticity has the same form as that of a spring. A DNA molecule is anchored at one end, then a force of 1.5nN(1.5 Problem 8.25 Experiments using "optical tweezers" measure the elasticity of individual DNA molecules. For small enough changes in length, the elasticity has the same form as that of a spring. A DNA molecule is anchored at one end, then a force of 1.5nN(1.5 Problem 8.25 Experiments using "optical tweezers" measure the elasticity of individual DNA molecules. For small enough changes in length, the elasticity has the same form as that of a spring. A DNA molecule is anchored at one end, then a force of 1.5nN(1.5 Problem 8.25 Experiments using "optical tweezers" measure the elasticity of individual DNA molecules. For small enough changes in length, the elasticity has the same form as that of a spring. A DNA molecule is anchored at one end, then a force of 1.5nN(1.5 Problem 8.25 Problem 8.25 Experiments using "optical tweezers" measure the elasticity of individual DNA molecules. For small enough changes in length, the elasticity has the same form as that of a spring. A DNA molecule is anchored at one end, then a force of 1.5nN(1.5 Experiments using "optical tweezers" measure the elasticity of individual DNA molecules. For small enough changes in length, the elasticity has the same form as that of a spring. A DNA molecule is anchored at one end, then a force of 1.5nN(1.5 Experiments using "optical tweezers" measure the elasticity of individual DNA molecules. For small enough changes in length, the elasticity has the same form as that of a spring. A DNA molecule is anchored at one end, then a force of 1.5nN(1.5
Explanation / Answer
force=spring constant*elongation
1.5*10-9=k*5*10-9
k=0.3
spring constant=0.3