(a) Use scaling law to analyze how capillary force scales with length scale. (b) Use scaling...

a) What is coulomb's law? b) How does tripling one of the charges affect the force...

a) What is coulomb's law? b) How does tripling one of the charges affect the force between two charged objects? C) How does tripling the distance affect the force between two charged objects?

Use Hooke's Law to determine the work done by the variable force in the spring problem....

Use Hooke's Law to determine the work done by the variable force in the spring problem. A force of 350 newtons stretches a spring 30 centimeters. How much work is done in stretching the spring from 10 centimeters to 40 centimeters? Thank you

a) According to Coulomb's law, how does tripling one of the charges affect the force between...

a) According to Coulomb's law, how does tripling one of the charges affect the force between two charged objects? b) What is one of the main differences between the force of gravity and an electrostatic force? Please type your responses and make them somewhat brief.

4. Electrostatics Coulomb’s law, or Coulomb’s inverse-square law, is a law of physics that describes force...

4. Electrostatics Coulomb’s law, or Coulomb’s inverse-square law, is a law of physics that describes force interactions between static electrically charged particles. The law is: F=kq1q2r2whereq1andq2represent two charges separated by a distance r and k is a constant approximately equal to 9×109Nm2C−2. (a) Find the work required to bring together a 0.8nCnegative charge and a 0.6nCnegative charge from a distance of 200 mm (0.2 m) to a distance of 100 mm (0.1 m).Note:1nC= 10−9CwhereCstands for coulombs and nC stands for...

Section 482 is used by the Treasury to: a. Force taxpayers to use arms-length transfer pricing...

Section 482 is used by the Treasury to: a. Force taxpayers to use arms-length transfer pricing on transactions between related parties. b. Reallocate income, deductions, etc., to a related taxpayer to mimimize tax liability. c. Increase information that is reported about U.S corporations with non-U.S owners. d. All of the above. Please explain.

4. Use the model of labor supply that includes indifference curves and budget constraints to analyze...

4. Use the model of labor supply that includes indifference curves and budget constraints to analyze the labor force participation behavior of a nonwealthy labor market participant who just married a wealthy partner. a. Use the model to discuss under what conditions s/he will exit the labor force. b. Discuss (and demonstrate) how the indifference curve may be shaped such that the newlywed keeps working (hint: is the curve steep or flat and what does that mean?) c. Discuss (and...

(1) (a) Let’s derive an ideal gas law. Let’s start with a cubic box with side-length...

(1) (a) Let’s derive an ideal gas law. Let’s start with a cubic box with side-length L. Now assume we have a particle traveling perfectly horizontally towards a single wall. When it collides with that wall, it will turn around and hit the wall on the other side. It will continue to bounce back and forth in this way forever. What is the period of this motion? In other words, how much time does it take for the particle to...

Consider H2O at 16 bar and 498 K. Use (a) the ideal gas law, (b) the...

Consider H2O at 16 bar and 498 K. Use (a) the ideal gas law, (b) the generalized compressibility chart, and (c) the steam tables to find specific volume. Assuming (c) is the measured value, how much error is inherent in the calculations in (a) and (b)?

1) Use ec= (TH– TC)/THwhere THis hot temperature (in the Kelvin scale, K) and Tcis the...

1) Use ec= (TH– TC)/THwhere THis hot temperature (in the Kelvin scale, K) and Tcis the cold. If TH= 700 K and TC= 300 K, what is the efficiency eC(Number less than 1, no units)? 2) The electric potential (voltage) is the amount of work in joules require to move one coulomb (C) of charge. How much work is required to move 2 C through 12 V of potential? (only number, no units) 3) What is the force between two...

Newton’s Gravitational Law predicts the force of attraction between two massive objects that are some distance...

Newton’s Gravitational Law predicts the force of attraction between two massive objects that are some distance apart: Fgravity = G m1m2/ r^2 (a) Given F is in units of Newtons, m is units of kilograms and r is in units of meters, what are the units of the universal gravitational constant, G, in meters, kilograms and seconds? Show your working.[2] (b) If one of the objects doubles in mass, how much does the predicted force of attraction change between the...