Answered: FIGURE 14.18 A nanoscale cantilever.…

Science

Advanced Physics

FIGURE 14.18 A nanoscale cantilever. 4000 nm 1400 nm Thickness = 100 nm %3D

Related questions

Q: Draw the FBD. Do calculation if necessary.

Q: Two solid cylindrical rods (1) and (2) are joined together at flange B and loaded, as shown in the f...

Q: the height of the Iguazu Falls is 82 m. A log of wood with mass 1350 kg moves at 7ms -1 in the water...

A: Since we only answer up to 3 sub-parts, we’ll answer the first 3. Please resubmit the question and s...

Q: A seismic station located 60 km from the epicenter of an earthquake, recorded the maximum height of ...

Q: Do you expect that most planetary systems in the Universe have analogs to our Solar System's asteroi...

A: In 1962, astronomers have discovered more than a thousand small, dark, icy, bodies orbiting in the o...

Q: 2. Given a coaxial cable with conductors of inner radius 'a' and outer radius 'b' (b>a) b 2.5 =e wit...

Q: An armusement park ride consists of a large vertical cylinder that spins about its axis fast enough ...

A: Given- Coefficient of static friction (µs) = 0.3 Radius (R) = 2 m Time (t) = 120 s

Q: Subject Quantum mechanics Please briefly explain this question.

Q: A rectangular toroid with inner radius R1 = 7.0 cm, outer radius R2 = 9.0 cm , height h = 3.0 , and ...

A: Given: Inner radius of toroid, R1 = 7.0 cm Outer radius of toroid, R2 = 9.0 cm Height of the toro...

Q: A double pendulum consists of two simple pendula, with one pendulum suspended from the bob of the ot...

A: Given A double pendulum consists of two simple pendula, with one pendulum suspended fromthe bob of t...

Q: R is the resultant of the four forces A, B, C, and D. Find the magnitude of the angle θ and the magn...

Q: Subject: statistical Mechanics Please solve it.

Q: A 3.35×10−5 kg3.35×10−5 kg positively charged ball with charge ?=7.75×10−6 Cq=7.75×10−6 C is resting...

A: Given Mass of ball m=3.35x10-5kg Charge on it q=7.75x10-6 C Electric field. E=635N/C Turn on for ti...

Q: Question: An artist creates a solid sculpture made from 6.60 kg of copper. She wishes to create an i...

A: Mass of silver

Q: Choose the best answer in the previous Question (# 9) butnow assume that you push both the car and t...

Q: Please teach me in detail!

Q: The nucleus 33S has I=3/2 and γN = 2.054 x 107 T-1 s-1. Calculate the energies of the nuclear spin s...

Q: A uranium ion and an iron ion are separated by a distance of ?=60.30 nm.R=60.30 nm. The uranium atom...

A: The required distance is,

Q: A particle possessing ?=9.25 μCq=9.25 μC of charge and a mass of ?=4.55 gm=4.55 g is fired at a spee...

A: Solution: Given values,

Q: a football of mass 0.42kg is moving horizontally at 10m/s towards a footballer's boot, which then ki...

A: Given: Mass of a football is m=0.42 kg Velocity of football is v=10m/s We have to find out impulse f...

Q: Using Divergence theorem, find the total charge lying within the region 0≤x≤3, 0≤y≤2, and 0≤z≤1. The...

Q: Solve this early but correctly.

A: We know position of bright fringe is given by: Given in the question,

Q: Advanced Physics Question

Q: 20- What flux is in a core which is wrapped with a 450 turn coil with a current of 475 m A if the r...

A: Given: Number of turns of coil is N=450 Current is I=475mA=475*10-3 A Reluctance of the core is R=1....

Q: Explain two assumptions behind the Kelvin-Helmholtz timescale.

Q: 08. In a three-dimensional vector space, consider the operator whose matrix, in an orthonormal basis...

Q: The block shown in the diagram below just begins to slide when the horizontal pushing force shown is...

Q: Given the 600-N force applied to the bracket at A in Fig 1, determine:

A: Since you have posted question with multiple sub-parts,we will solve first three sub-parts for you. ...

Q: Subject: Mathematical method of physics

Q: Two test charges are located in the ?x–?y plane. If ?1=−4.70 nCq1=−4.70 nC and is located at ?1=0.00...

Q: 14. Cause of the Seasons. Suppose a friend is trying to claim that it is summer when Earth is closes...

Q: Observations show that a celestial body traveling at 1.2 × 106 mi/h appears to be describing about p...

Q: Situation 6. Determine the resultant foroe R and its line of action for the follwing force-couple sy...

A: Formula .

Q: k ww a b Consider an air-filled parallel-plate capacitor with one plate connected to a spring having...

Q: Write the functions x(t) and y(t) in Example 4 in the case that x0 = 0, y0 = 2,u0 = 100, and v0 = 60...

A: Given for base ball initial position is xo=0 and y0=2ft Initial velocity with Horizontal component ...

Q: The Whitworth mechanism shown is used to produce a quick-return motion of point D. The block at B is...

A: The free-body diagram is as follows:

Q: A space probe is to be placed in a circular orbit of radius 4000 km about the planet Mars. As the pr...

Q: hand written where q=3

A: Given value,

Q: 1. Show that the closest and farthest approach (called the pericentre and apocentre, respectively) o...

A: r is the distance from focus to the particle(S) P is the latus rectum i.e. smallest distance from fo...

Question

It has recently become possible to “weigh” individual DNA molecules by measuring the influence of their mass on a nanoscale oscillator.as shown a thin rectangular cantilever etched out of silicon. The cantilever has a mass of 3.7 * 10^-16 kg. If pulled down and released, the end of the cantilever vibrates with simple oscillation frequency can be measured with very high precision simply by counting the oscillations. In one experiment, the cantilever was initially vibrating at exactly 12 MHz. Attachment of a DNA molecule caused the frequency to decrease by 50 Hz. What was the mass of the DNA molecule?