Step 3: We can calculate the acceleration of the car using Newton's second law: a=Fnetm=3700N1500kg≈2.5m/s2 The car will accelerate at 2.5 m/s/s. Example Problem 2 - Calculating the Acceleration of a Single Object Due to a Force ...
There's another way to calculate acceleration based on Newton's second law of motion. According to the first law, a body remains in a state of uniform motion unless acted upon by a force, and the second law expresses the mathematical relationship between the magnitude of the force (F...
Homework Statement I have a car with a mass (m) and tires having moment of inertia (I). I need to find an equation for the acceleration of the car from...
Imagine walking down the street when all of a sudden a manhole covers flies 50 feet in the air! In this edition of HowStuffWorks, you'll learn what causes these blasts and how they compare to the combustion chamber of a car engine. Contents Shaking the Ground Energy Everywhere Shaking the...
An ice skater gliding to a stop. Instantaneous Acceleration In Calculus, instantaneous acceleration is the acceleration of an object at a specific moment in time. It’s the rate that the objectchangesit’s velocity. As an example, let’s say a car changes its velocity from one minute to th...
Formula to Calculate Gas Mileage Here’s a simple formula for calculating your gas mileage: If you have a specific number of miles you’ve driven for business, you can multiply your gas mileage by the number of business miles. This will give you the business-specific fuel cost for that tim...
Calculate the acceleration of a person or object by dividing the change in velocity by the time over which the change took place. For example, consider a race car that starts from rest, or zero mph, and accelerates to a final velocity of 155 mph in 6.1 seconds. A velocity of 155 mph ...
Ok, I've been running over this problem for about an hour now, and I can't figure out where I'm going wrong. I'm a complete newb, so I'm sure it's...
What is the formula to calculate potential energy? The formula is relatively simple. An object which is not raised above the ground will have a height of zero and therefore zero potential energy. ... The potential energy formula m - mass. ...
The hardest part to work out when you calculate falling object forces is the distance traveled. You can estimate this to come up with an answer, but there are some situations where you can put together a firmer figure. If the object deforms when it makes impact – a piece of fruit that...