the floor is made of unit square tiles. You throw a disk of radius 1/10, what...

For a uniformly charged disk of radius 95 mm , you wish to determine the electric...

For a uniformly charged disk of radius 95 mm , you wish to determine the electric field magnitude along the axis that runs through the disk center and perpendicular to the disk face. You want to get by with a minimal amount of work, so you need to know when you can get by with approximating the disk as an infinite sheet. Part A At what distance along the perpendicular axis does your error in E reach 10% of the...

Let's say that you play basketball very well and you are at the free throw line...

Let's say that you play basketball very well and you are at the free throw line 10 times during the Crown Invitational Basketball Tournament. The chance of you making a free throw is 90% based on the data from a full season of basketball games. If you shoot 10 free throws during this game... 1. What is the probability that you make exactly 9 shots? (we will assume all ten are independent from one another) 2. What is the probability...

You have a disk with a radius of .1 m and generate negative charges by rubbing...

You have a disk with a radius of .1 m and generate negative charges by rubbing 2 electrostatic materials which are transferred to the disk. The surface charge density at the disk for the negative charges is -3.0x10^-6 C/m^2. How many electrons were generated and what is the electric field 0.001 m above the surface at a point near the center?

A uniformly charged disk of radius 10 cm carries a uniform charge density of 3nC/m^2 (a)...

A uniformly charged disk of radius 10 cm carries a uniform charge density of 3nC/m^2 (a) Calculate the electric potential (relative to zero at infinity) at a point A, situated on the symmetry axis of the disk that is perpendicular to the disk face, at a distance of 1 mm from the disk. (b) Calculate the electric potential difference ΔV between point A and another point on the same axis at a distance 2 mm from the disk. (c) Compare...

According to a 2009 Reader's Digest article, people throw away approximately 10% of what they buy...

According to a 2009 Reader's Digest article, people throw away approximately 10% of what they buy at the grocery store. Assume this is the true proportion and you plan to randomly survey 202 grocery shoppers to investigate their behavior. What is the probability that the sample proportion is between 0.05 and 0.16? Note: You should carefully round any z-values you calculate to 4 decimal places to match wamap's approach and calculations.

According to a 2009 Reader's Digest article, people throw away approximately 10% of what they buy...

According to a 2009 Reader's Digest article, people throw away approximately 10% of what they buy at the grocery store. Assume this is the true proportion and you plan to randomly survey 77 grocery shoppers to investigate their behavior. What is the probability that the sample proportion exceeds 0.08? Note: You should carefully round any z-values you calculate to 4 decimal places to match wamap's approach and calculations. Answer = (Enter your answer as a number accurate to 4 decimal...

Please answer the questions below and show all work. 1. If 10% of all disk drives...

Please answer the questions below and show all work. 1. If 10% of all disk drives produced on an assembly line are defective, what is the probability that there will be exactly one defect in a random sample of 5 of these? What is the probability that there will be no defects in a random sample of 5? 2. The time to complete a construction project is normally distributed with a mean of 60 weeks and a standard deviation of...

You throw a ball vertically upward with an initial velocity of 10 m/s from a window...

You throw a ball vertically upward with an initial velocity of 10 m/s from a window located 20 m above the ground. Knowing that the acceleration of the ball is constant and equal to 9.81 m/s^2 downward (this makes for negative acceleration as upward motion is positive and downward motion is negative and gravity pulls downward), determine: (a) The acceleration at t = 2 s (b) The equation for velocity (Because you are looking for an equation for velocity, you...

From this week's lab you learned that the change in gravitational potential energy of a falling...

From this week's lab you learned that the change in gravitational potential energy of a falling body can be captured and stored as a rotational kinetic energy of a spinning disk. This gave you the idea of a regenerative driver for an elevator in a tall building. When an elevator goes down the corresponding change in the gravitational potential energy of the elevator is transformed into the rotational kinetic energy of a solid disk-shape flywheel which can be extracted and...

You have made measurements at the surface (10 m above the ground) and at 1 km....

You have made measurements at the surface (10 m above the ground) and at 1 km. Surface wind speed was measured as 2 m/s and the wind speed at 1000 m was measured at 9 m/s. Virtual temperature was 303 K at the surface and 292 K at 1000m. The virtual potential temperature at 1000m was 297 K. Calculate the Richardson number for the layer between the serface and 1000m. What does the Richardson number say about stability. Is it...