When air resistance is not negligible, the return speed of an object will be slower than the initial speed because air resistance acts in the opposite direction of the object's motion, slowing it down. This results in a decrease in the object's speed over time.
As an object rises WITH air resistance, the acceleration is larger in size than g, because both gravity and air resistance will be causing a downward acceleration. As the object FALLS with air resistance, the acceleration will be smaller in size than g, because gravity and resistance will be opposing each other. Because of the smaller acceleration being applied over the same distance, the return speed will be slower than the launch speed.
When air resistance is a factor, the ball will return to its original point with less kinetic energy due to the work done against the resistance of the air. The air resistance converts some of the ball's kinetic energy into thermal energy, causing a reduction in the ball's speed.
When electrons lose energy and return to their initial state, they give off light in the form of photons. The energy of the emitted light corresponds to the energy difference between the initial and final states of the electron.
Assuming no air resistance, the time it takes for the projectile to return to its starting point is twice the time it takes to reach the highest point of its trajectory. The time to reach the highest point can be calculated using the equation: time = initial velocity / acceleration due to gravity. Therefore, the total time for the projectile to return would be around 6 seconds.
The number of return swings that will strike the wall will depend on the length of the pendulum and the distance from the release point to the wall. For a typical pendulum, the first return swing may strike the wall if the initial release is very close. Subsequent return swings may or may not strike the wall, depending on the pendulum's length and the wall's distance.
it would be slower
Average Rate of Return is calculated by using the formula: (Net return per year / initial investment) x 100 Average Rate of Return is calculated by using the formula: (Net return per year / initial investment) x 100
Average Rate of Return is calculated by using the formula: (Net return per year / initial investment) x 100 Average Rate of Return is calculated by using the formula: (Net return per year / initial investment) x 100
To calculate the rate of return on your investment, subtract the initial investment amount from the final value of the investment, then divide that result by the initial investment amount. Multiply the result by 100 to get the rate of return as a percentage.
To calculate the rate of return on an investment, you subtract the initial investment amount from the final value of the investment, then divide that result by the initial investment amount. Multiply the result by 100 to get the percentage rate of return.
NPV/Initial Cost of Investment
To calculate the holding period return for an investment, subtract the initial investment amount from the final investment value, then divide by the initial investment amount. Multiply the result by 100 to get the percentage return.
Every marketing campaign requires an initial investment of time and/or money. Return on investment is a metric that measures whether a campaign earned enough money to be worth the initial cost.
Average rate of return=Average profit /Initial investment*100% or ARR=Average profit /Average investment*100% or ARR=Total profit /Initial Investment*100%
To find the rate of return on an investment, you calculate the percentage increase or decrease in the value of the investment over a specific period of time. This is done by dividing the difference between the final value and the initial value of the investment by the initial value, and then multiplying by 100 to get the percentage return.
They give of energy in the form of light.
Light.