10 m/s^2 is the acceleration of a 30.0-kg go kart if the thrust of its engine is 300.0 N.
it is cause mainly due to mass and acceleration
i guess when the engines are set to full thrust, and when the plane leaves the ground...
Thrust (from engine), aerodynamic drag, lift (from wings) and weight (mass * acceleration due to gravity).
If drag and thrust are equal, a flying device will stop ACCELERATING, that is it will maintain a constant speed.From classical Newtonian physics:Force = mass x accelerationSince drag and thrust are forces, we have:Thrust - drag = mass x accelerationSince you say that drag and thrust are equal, and the mass of a flying object is some finite value, it turns out that the acceleration = 0, i.e. a constant speed
what is the acceleration of a 30.0-kg go kart if the thrust of its engine is 300.0 N?
10 m/s^2 is the acceleration of a 30.0-kg go kart if the thrust of its engine is 300.0 N.
10 m/s^2 is the acceleration of a 30.0-kg go kart if the thrust of its engine is 300.0 N.
10 m/s^2 is the acceleration of a 30.0-kg go kart if the thrust of its engine is 300.0 N.
10 m/s^2 is the acceleration of a 30.0-kg go kart if the thrust of its engine is 300.0 N.
it is cause mainly due to mass and acceleration
Its a thrust ssc
10.0 M/s2
i guess when the engines are set to full thrust, and when the plane leaves the ground...
10.0 M/s2
Thrust is the quantity of force acted by a type of engine on an object which results in acceleration.
Same as anywhere else. You can use the formula F = ma (force equals mass times acceleration) and solve for acceleration (a = F/m). Force might be gravitation, in specific cases - or the thrust from the rocket engine. Of course, SOME data must be known to figure out acceleration.Same as anywhere else. You can use the formula F = ma (force equals mass times acceleration) and solve for acceleration (a = F/m). Force might be gravitation, in specific cases - or the thrust from the rocket engine. Of course, SOME data must be known to figure out acceleration.Same as anywhere else. You can use the formula F = ma (force equals mass times acceleration) and solve for acceleration (a = F/m). Force might be gravitation, in specific cases - or the thrust from the rocket engine. Of course, SOME data must be known to figure out acceleration.Same as anywhere else. You can use the formula F = ma (force equals mass times acceleration) and solve for acceleration (a = F/m). Force might be gravitation, in specific cases - or the thrust from the rocket engine. Of course, SOME data must be known to figure out acceleration.