*Uncertainity principle - bullet A proton and a 9 g bullet each move with a speed...

A proton and a bullet each move with a speed 324 m/s, measured with an uncertainty...

A proton and a bullet each move with a speed 324 m/s, measured with an uncertainty of .01%. If measurements of their respective positions are made simultaneous with the speed measurements, what is the minimum uncertainty in the position measurement for the proton in units of microns and 3 significant figures? Take ?(x)*?(p) = h/(2?). The proton mass is 938 MeV/c2. You do NOT need to specify the units for this question

A ball of mass 15 g moves with a speed of 60 m/s. If its speed...

A ball of mass 15 g moves with a speed of 60 m/s. If its speed is measured to an accuracy of 0.8%, what is the minimum uncertainty in its position? The value of ¯h is 1.05457 × 10?34 J · s. Answer in units of m. Answer is not: 155.93 : 539.525 2.16e15 : 7.811e12 : 7.23e10 2.075e13

IP A bullet with a mass of 4.2 g and a speed of 640 m/s is...

IP A bullet with a mass of 4.2 g and a speed of 640 m/s is fired at a block of wood with a mass of 9.8×10−2 kg . The block rests on a frictionless surface, and is thin enough that the bullet passes completely through it. Immediately after the bullet exits the block, the speed of the block is 21 m/s . What is the speed of the bullet when it exits the block? Is the final kinetic energy...

A bullet with speed 511 m/s and mass m = 5.00 g is shot into a...

A bullet with speed 511 m/s and mass m = 5.00 g is shot into a stationary block of wood hanging a distance h1 = 1.00 m above the ground, as shown in Figure 1. The block is hanging by a string of length r = 0.30 m. The bullet is lodged in the block, and the block-bullet system swings so that the string makes an angle of θ = 60.0° when the string breaks, as shown in Figure 2....

A.      Calculation of Density Density is a derived unit which is the ratio of the mass of...

A.      Calculation of Density Density is a derived unit which is the ratio of the mass of a substance to the volume occupied by that mass. Typical units are: kg/m3, g/mL or g/cm3. 1.      Weigh the wooden block you measured in Part A using the balance. 2.      Determine the density of wood. Complete Table 2. Include the correct number of significant figures and the uncertainty. Write your final answer in scientific notation. Compare your result to the accepted value. Calculate the percentage error....

A cart is allowed to roll down an inclined track and its speed a the bottom...

A cart is allowed to roll down an inclined track and its speed a the bottom of the track is measured. The measurement is repeated five times and the results are recorded in the table below. In the questions that follow, do not round your answers unless you are specifically instructed to. Trial Velocity (m/s) 1 0.671459 2 0.672207 3 0.669468 4 0.666862 5 0.669818 What is the most-likely value of the velocity of the cart at the bottom of...

Problem: You weigh out a piece of copper wire (AW=63.546): Weight of copper standard....................0.2992 g Dissolve...

Problem: You weigh out a piece of copper wire (AW=63.546): Weight of copper standard....................0.2992 g Dissolve it in a slight excess of concentrated nitric acid. Add to the solution the required amount of concentrated ammonia. Transfer this quantitatively to a 100 mL volumetric flask, dilute to volume, and mix thoroughly. 10.00 mL of this is pipetted into a 100 mL volumetric flask, the required amount of concentrated ammonia is added and diluted to volume. This is Standard 1. Standard 2...

MATH125: Unit 1 Individual Project Answer Form Mathematical Modeling and Problem Solving ALL questions below regarding...

MATH125: Unit 1 Individual Project Answer Form Mathematical Modeling and Problem Solving ALL questions below regarding SENDING A PACKAGE and PAINTING A BEDROOM must be answered. Show ALL step-by-step calculations, round all of your final answers correctly, and include the units of measurement. Submit this modified Answer Form in the Unit 1 IP Submissions area. All commonly used formulas for geometric objects are really mathematical models of the characteristics of physical objects. For example, a basketball, because it is a...

If two wires carry current next to each other, they will exert a force on each...

If two wires carry current next to each other, they will exert a force on each other. The force is caused by magnetic fields. One current creates a magnetic field, and this field exerts a force on the other current. The magnitude of the field created by a long, straight current-carrying wire is given by Equation 1 below; B= (μ0i)/(2πr) where i is the current and r is the distance from the wire. The magnitude of the force exerted on...

Finding the Spring Constant We can describe an oscillating mass in terms of its position, velocity,...

Finding the Spring Constant We can describe an oscillating mass in terms of its position, velocity, and acceleration as a function of time. We can also describe the system from an energy perspective. In this experiment, you will measure the position and velocity as a function of time for an oscillating mass and spring system, and from those data, plot the kinetic and potential energies of the system. Energy is present in three forms for the mass and spring system....