was the day I was going Mia
You would need to know how fast it is going to determine the force that the 50 hp motor is pushing the boat. Energy = Force X Distance. Divide both sides by time: Energy/time = Force X Distance/Time = Force X Speed, and Energy/Time = Power, so Power = Force X Speed, and Force would equal Power/Speed.
* *
The formula for finding work is: Work = force X distance. To find distance, you must divide both sides by force. After simplifying the equation, the new equation will read: distance = work divided by force
equals work
W= Fd Work Done (J) = Force (N) x Distance (M)Work = Force x Displacement x cos(θ) where θ is the angle between the direction of the Force and the direction of the displacementAs Force and displacement are both vectors and work is a scalar, the magnitude of the work is the scalar product of force and displacementW = F.sW = Fs cos(θ)In order to simply determine work done on an object, figure out how much force was exerted on the object, and over what distance, and multiply them. If you are just pushing an object, figure out the force needed to overcome friction and how far it was pushed. The unit of work (and energy) most commonly used is the joule. It is one Newton of force applied over one meter. 2 joules could be one Newton pushed over 2 meters, or 2 Newtons pushed over 1 meter.Work= force(N) x distance(M) or W=fd
Distance * Force / Calories
A force is pushing or pulling on something.
The answer is like force can be pull or push.Both are force.For example if you are pushing a shopping cart full of milk,that is force from your muscles.It is motion to.
20m
Work done=force (N) x distance travelled in the direction of the force
Energy can be transferred to material things by pushing or pulling AND moving it through a distance. The push or pull is a force, and the amount of energy is the magnitude of the force multiplied by the distance through which it acts. No matter how hard you push or pull, if your force doesn't move through any distance, then no energy is transferred to the thing you're pushing or pulling.
According to Newton's Second Law of Motion, the greater the force, the greater the acceleration. So if you were to begin pushing a shopping cart harder, you go faster and there is more acceleration. If you were to push the cart softer there would be less acceleration.
by pushing. or you can use a machine that makes your work easier
It can be either. Horse-drawn carts are virtually all pulled. Library and shopping carts are pushed. However, any pulling or pushing force that is exerted includes a pushing force against the ground (i.e. friction).
In order for work to be done there must be a Force F pushing over a distance D. Work=Force x Distance Work only is done in the direction of the Force.
Yes, this is because there is more force pushing it down and this force continues after the hill andeventuallystops.
Work is being done by the force of gravity. When the book falls to the floor, there's a force on it, and the force keeps acting on it as it covers the distance. A force acting through a distance is the definition of work. Maybe there's nobody pushing the book, but the force of gravity is pulling it down, and it's the force of gravity that does the work on the book.