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∙ 6y agoThe force needed to accelerate a 1300 kg car at a rate of 1.5 m/s^2 can be calculated using Newton's Second Law (F = m * a), where F is the force, m is the mass, and a is the acceleration. Therefore, the force required would be 1950 N.
To calculate the force needed to accelerate the skier, you need to know the acceleration. If the acceleration is not provided, you can use the formula F = m*a, where F is the force, m is the mass of the skier (66 kg), and a is the acceleration. However, without the acceleration value, the force cannot be accurately calculated.
To accelerate a 1kg mass at 1m/s^2, you need to apply a force of 1 Newton (N) according to Newton's second law (F=ma).
The force needed to accelerate the car can be calculated using Newton's second law: Force = mass x acceleration. Plugging in the values, we get: Force = 1200 kg x 1.8 m/s^2 = 2160 N. So, 2160 Newtons of force is needed to accelerate the 1200 kg car at a rate of 1.8 m/s^2.
To accelerate a 20kg bicycle (10kg bike + 10kg rider) at a rate of 2 m/s^2, you would need a force of 40 newtons. This is calculated by multiplying the mass (20kg) by the acceleration (2 m/s^2).
Objects need a force to overcome inertia and start moving. This force can come in many forms, such as push, pull, gravity, or friction. Once a force is applied, the object will accelerate and begin to move in the direction of the force.
To calculate the force needed to accelerate the skier, you need to know the acceleration. If the acceleration is not provided, you can use the formula F = m*a, where F is the force, m is the mass of the skier (66 kg), and a is the acceleration. However, without the acceleration value, the force cannot be accurately calculated.
You can use Newton's Second Law here: force = mass x acceleration. Your units are in SI, so you don't need any conversion. Answer will be in newtons.
To accelerate a 1kg mass at 1m/s^2, you need to apply a force of 1 Newton (N) according to Newton's second law (F=ma).
The force needed to accelerate the car can be calculated using Newton's second law: Force = mass x acceleration. Plugging in the values, we get: Force = 1200 kg x 1.8 m/s^2 = 2160 N. So, 2160 Newtons of force is needed to accelerate the 1200 kg car at a rate of 1.8 m/s^2.
To accelerate a 20kg bicycle (10kg bike + 10kg rider) at a rate of 2 m/s^2, you would need a force of 40 newtons. This is calculated by multiplying the mass (20kg) by the acceleration (2 m/s^2).
Objects need a force to overcome inertia and start moving. This force can come in many forms, such as push, pull, gravity, or friction. Once a force is applied, the object will accelerate and begin to move in the direction of the force.
You generally need more force to move a heavier object due to its greater mass. More force is required to overcome the object's inertia and accelerate it.
The force required to accelerate an object depends on the object's mass. Newton's second law states that Force = Mass * Acceleration. Re-written to solve for acceleration, this becomes Acceleration = Force/Mass. Basically, this means that the more mass an object has, the more force is required to accelerate it. Also, the faster you want to accelerate the object, the more force you will need.
Just use Newton's Second Law to solve this. F=ma (force = mass x acceleration).
No. To have an acceleration, you need a non-zero NET FORCE. That is, the sum of all objects acting on the box must not be equal to zero.
Yes, an object can accelerate without friction if a force is applied to it. For example, if a car is pushed or a rocket engine is ignited in space, they can accelerate without the need for friction. Friction is just one of many forces that can influence the motion of an object.
It depends on the mass of the wall, and how fast you can accelerate the object you are using to break the wall. this is because Net Force (what you would need to break the wall) = mass times acceleration