## PLEASE REVIEW INFORMATION Ohm’s LawTheory Ohm’s law states that the current through a conductor

PLEASE REVIEW INFORMATION Ohm’s Law Theory Ohm’s law states that the current through a conductor between two points is directly proportional to the voltage across the two points and inverse proportional with the resistance. V = I R V = Voltage I = Current R = Resistant Procedure The lab activity uses a simulation developed […]

## PLEASE REVIEW THE INFO Experiment

PLEASE REVIEW THE INFO Experiment Pendulum and the Calculation of g Experiment Pendulum and the Calculation of g Lab 6 -Simple Pendulum Discussion and review A simple pendulum consists of a mass (“bob”) suspended from a light string of length L. The bob is pulled sideways such as the string makes with the vertical direction […]

## I am looking for someone to help me solve the attached question image1.png

I am looking for someone to help me solve the attached question image1.png

## please review the info Conservation of Energy Name: Date: Objectives: To explore concepts of kinetic, potential and total

please review the info Conservation of Energy Name: Date: Objectives: To explore concepts of kinetic, potential and total energy with and without friction. Theory: Kinetic Energy, KE=½mv2. Gravitational Potential Energy PE=mgh Total Mechanical Energy, E=KE+PE= mgh + ½mv2 Conservation of energy law: Ef = Ei or Ef – Ei = 0 if Ffr = 0 […]

## info belowFRICTIONThe lab activity uses a simulation developed by University of ColoradoFriction Simulation

info below FRICTION The lab activity uses a simulation developed by University of Colorado Friction Simulation Click Here Select “Friction” on the bottom of the screen, then select all the right corner options. Start with the m=50kg wood box on the floor and increase the applied force such as the “Sum of Forces” is at […]

## INFROMATION BELOW Lab 3 – Force 1. What is force?2. What is the unit for force?3. Analyze each vector diagram and fill

INFROMATION BELOW Lab 3 – Force 1. What is force? 2. What is the unit for force? 3. Analyze each vector diagram and fill in the table below. Vector Diagram Resultant Force (Magnitude and Direction) 4. What is the force on a 1000 kg elevator that is falling freely at 9.8 m/sec2? 5. What is […]

## PLEASE REVIEW THE INFOData Collection: Linear MotionLinear motion refers to the motion of an object along a straight

PLEASE REVIEW THE INFO Data Collection: Linear Motion Linear motion refers to the motion of an object along a straight line. This experiment will study in activity 1 the linear motion in a horizontal direction and in activity 2 the linear motion in a vertical direction. Material you need: · Tennis ball or any small […]

## Can someone help me with this homework assignmen? Only 15 questions.Last Name _____________________________ First Name ____________________ Major

Can someone help me with this homework assignmen? Only 15 questions. Last Name _____________________________ First Name ____________________ Major _________________ 1. Complete the following statement: The angular measure 1.0 radian is equal to A) 0.0175°. B) 57.3°. C) 1.57°. D) 3.14°. E) 6.28°. 2. A bicycle travels 141 m along a circular track of radius 30 […]

## Graphing Lab PHSC 114 Southern Arkansas University TECH Spring ‘23Lab 3- GraphingIntroduction:One of the most effective methods of

Graphing Lab PHSC 114 Southern Arkansas University TECH Spring ‘23 Lab 3- Graphing Introduction: One of the most effective methods of describing the relationship between two or more types of measurements is to plot a graph. For example, you could plot a graph of distance vs. time and this would show you how distance changes […]

## Last Name ___________________________First Name _______________________Date ______________1. A park ranger wanted to measure the height of a tall tree.

Last Name ___________________________First Name _______________________Date ______________ 1. A park ranger wanted to measure the height of a tall tree. The ranger stood 9.50 m from the base of the tree; and he observed that his line of sight made an angle of 65.2° above the horizontal as he looked at the top of the tree. […]