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Well the forces are opposing, so the total net force is 6 N in the direction the stronger kicker kicks the ball (25 N --> - 19 N < -- = 6 N --> ) then u have F and Mass and can solve for acceleration
F=m*a then a = f/m 6 N or 6 (Kg*m)/s^2 / 1 kg
(check ur units to make sure it leaves u with what u are looking for so kg cross out leaving u with m/s^2)
ANSWER
= 6 m/s^2
apex- 15
What else can I help you with?
Two soccer players kick the same 1 kg ball at the same time in opposite directions One kicks with a force of 20 N the other kicks with a force of 12 N What is the resulting acceleration of the ball?
m = 1kgF1 = 20NF2 = -12NFnet = 20N + (-12N) = 8NFnet = m•aa = Fnet/m = 8N/1kg = 8m/s2
What are some examples of hockey and newtons laws?
All the three Newtons laws of motion is applicable in the game of hockey. The ball stays where it is unless it is hit and given a force. The acceleration in the ball is proportional to the force given to it through the stick by the player. The ball when rebounds on the goal post is as per the third law of motion. As the stick, the ball and the post are rigid materials there is not much loss due to absorption.
How is Newton's 3 laws of motion used in a game of ice hockey?
Newton's 1st Law, generally accepted as the definition of 'inertia', states that every object will remain at rest or in uniform motion in a straight line unless it is compelled to change its state by the action of an external force. His 2nd Law, and arguably the most important as it allows for calculation and comparison of forces, states that the relationship between the mass of an object, m, its acceleration, a, and the applied force, F, is F=ma. Finally, the 3rd Law states that for every action, there is an equal but opposite reaction. In the game, the puck it struck by the blade of the stick to send it up the ice and towards the goal. on its way it could be stopped, deflected, speeded up or even sent back from where it came by the action of other players hitting it with the blades of their sticks or even by the walls.
Is soccer an example of acceleration?
Yes, soccer involves both acceleration and deceleration. Players need to accelerate when they sprint to chase the ball or move quickly on the field. They also need to decelerate when they stop running or change directions suddenly.
How is newton's 3 laws used in football?
Over eager Physics teacher or coach? Newton's Laws govern the movement of objects in response to force N1 "unless acted on by a force objects velocities don't change" means that a ball kicked (or thrown) will travel in a straight line unless acted on by another force (a player or gravity) of course in the real world we have wind and drag and friction to deal with too. N2 is basically summarised as Force=mass x acceleration, this lets you work out how fast a ball will go if kicked with a certain force, or how much force at what acceleration is needed to knock over a player of a given mass. N3 every action has an equal and opposite reaction. Basically this is important if you are going to run into somebody - there will be pain in both directions!
Two soccer players kick the same 1-kg ball at the same time in opposite directions One kicks with a force of 20 N the other kicks with a force of 12 N What is the resulting acceleration of the ball?
To find the resulting acceleration of the ball, you first need to calculate the net force acting on it by subtracting the force applied in the opposite direction (12 N) from the force applied in the other direction (20 N). Net force = 20 N - 12 N = 8 N Next, use the equation F = ma (Newton's second law) and rearrange it to find the acceleration: Acceleration (a) = Net force / mass = 8 N / 1 kg = 8 m/s^2. Therefore, the resulting acceleration of the ball is 8 m/s^2.
two soccer players kick the same 2-kg ball at the same time in opposite directions One kicks with a force of 15N the other kicks with a force of 5N. what is the resulting acceleration of the ball, in m/s2?
The net force acting on the ball is 10N (15N - 5N) in the direction of the stronger kick. Using Newton's second law (F = ma), we can calculate the resulting acceleration as 5 m/s^2 (10N / 2kg).
Two soccer players kick the same 1 kg ball at the same time in opposite directions One kicks with a force of 20 N the other kicks with a force of 12 N What is the resulting acceleration of the ball?
m = 1kgF1 = 20NF2 = -12NFnet = 20N + (-12N) = 8NFnet = m•aa = Fnet/m = 8N/1kg = 8m/s2
Two Soccer players kick the same 1-kg ball at the same time in opposite directions. One kicks with a force of 25 N the other kicks with a force of 10 N. What is the resulting acceleration of the ball?
15 -Brittany Goraczkowski
Two soccer players kick the same 2-kg ball at the same time in opposite directions. one kicks with force of 15 n the other kicks with a force of 5 n. what is the resulting acceleration of the ball in?
The net force acting on the ball is the difference between the two forces, so 15 N - 5 N = 10 N. Using Newton's second law (F = ma), we can find the resulting acceleration: 10 N = 2 kg * a. Therefore, the resulting acceleration of the ball is 5 m/s^2.
Two soccer players kick the same 2kg ball at the same time in opposite directions One kicks with a force of 18 N the other kicks with a force of 10 N What is the resulting acceleration of the ball?
15
Two soccer players kick the same 2-kg ball at the same time in opposite directions. One kicks with a force of 15 N the other kicks with a force of 5 N. What is the resulting acceleration of the ball i?
The net force on the ball is the difference between the two forces: 15 N - 5 N = 10 N. Using Newton's second law (F = ma), where the mass (m) is 2 kg, the resulting acceleration of the ball is 5 m/s^2.
How do hockey players use force to change another player's momentum?
A player well ram into players of opposing teams as they attempt to move in opposite direction. Another way to slow down momentum is to skate along side and the push them into the wall.
How does acceleration apply to soccer?
Acceleration is a key aspect of soccer. Players need speed to get past defenders and have a shot on goal.
Two soccer players kick the same 2-kg ball at the same time in opposite directions One kicks with a force of 18 N; the other kicks with a force of 10 N What is the resulting acceleration of the ball?
Force = mass * acceleration18 N - 10 N = 8 N-----------------------8 N = 2 kg * acellerationacceleration = 8 N/2 kg4 m/s2======
Two soccer players kick the same 1-kg ball at the same time in opposite directions. One kicks with a force of 20 N the other kicks with a force of 12 N. What is the resulting acceleration of the ball?
its 8
What is the direction of the players weight when hitting a slice in tennis?
forward
