show that kinetic energy and potential energy have the same dimensions using dimensional analysis

1.) Show the dimensional analysis for the equation Fs=-k deltax 2.) Show the dimensional analysis for...

1.) Show the dimensional analysis for the equation Fs=-k deltax 2.) Show the dimensional analysis for the equation T=2 pi square root (k/m)

When a spring is compressed... The potential energy is a minimum and kinetic energy is at...

When a spring is compressed... The potential energy is a minimum and kinetic energy is at a minimum. The potential energy is at a minimum and kinetic energy is at a maximum. The potential energy is at a maximum and kinetic energy is at a minimum. The potential energy is at a maximum and kinetic energy is at a maximum. A ball mass 6 g is placed in front of a spring compressed by 7.21 cm. Right after launch, the...

I need a summary on mechanical energy, including potential and kinetic energy. Please use the example...

I need a summary on mechanical energy, including potential and kinetic energy. Please use the example of a skater in a ramp (at the top of the ramp the skater has all potential energy no kinetic energy, and at the bottom of the ramp the skater has no potential energy all kinetic energy). Please explain why a situation's potential+kinetic energy is equal to the total amount of mechanical energy.

1 - Write the one dimensional, time-independent Schrödinger Wave Equation (SWE). Using the appropriate potential energy...

1 - Write the one dimensional, time-independent Schrödinger Wave Equation (SWE). Using the appropriate potential energy functions for the following systems, write the complete time independent SWE for: (a) a particle confined to a one-dimensional infinite square well, (b) a one-dimensional harmonic oscillator, (c) a particle incident on a step potential, and (d) a particle incident on a barrier potential of finite width. 2 - Find the normalized wavefunctions and energies for the systems in 1(a). Use these wavefunctions to...

is average kinetic energy the same as velocity

is average kinetic energy the same as velocity

Write the kinetic, potential and total energy of a baseball having a mass of 0.145kg held...

Write the kinetic, potential and total energy of a baseball having a mass of 0.145kg held at rest 10 meters above the ground. The baseball is released. Under the influence of gravity on Earth, it freefalls to the ground. Assuming the air resistance is negligible, write the kinetic, potential and total energy of the baseball at the instant when the baseball hits the earth. What is the baseball’s final speed when it impacts the ground using the principles of Energy...

Two particles have different rest energies but the same kinetic energy. Which of the following statements...

Two particles have different rest energies but the same kinetic energy. Which of the following statements is correct? Each particle moves at the same speed. The particle with the larger rest energy is moving faster. The particle with the smaller rest energy is moving faster.

Classical Mechanics - Let us consider the following kinetic (T) and potential (U) energies of a...

Classical Mechanics - Let us consider the following kinetic (T) and potential (U) energies of a two-dimensional oscillator : ?(?,̇ ?̇)= ?/2 (?̇²+ ?̇²) ?(?,?)= ?/2 (?²+?² )+??? where x and y denote, respectively, the cartesian displacements of the oscillator; ?̇= ??/?? and ?̇= ??/?? the time derivatives of the displacements; m the mass of the oscillator; K the stiffness constant of the oscillator; A is the coupling constant. 1) Using the following coordinate transformations, ?= 1/√2 (?+?) ?= 1/√2...

At what speed does a 1000 kg compact car have the same kinetic energy as a...

At what speed does a 1000 kg compact car have the same kinetic energy as a 19000 kg truck going 22 km/hr ?

   Do all electrons ejected from the metal surface have the same kinetic energy? Is this important...

   Do all electrons ejected from the metal surface have the same kinetic energy? Is this important for the interpretation of this lab?