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The horizontal velocity component of the ball can be found by using the equation: horizontal velocity = initial velocity * cos(angle). In this case, the initial velocity is 26 m/s and the angle is 30 degrees. Plugging in the values, we get: horizontal velocity = 26 m/s * cos(30) ≈ 22.5 m/s.
To find the horizontal distance the ball travels before hitting the ground, you need to calculate the time it takes for the ball to reach the ground. Use the equation: time = (2 * initial velocity * sin(angle)) / acceleration, where acceleration due to gravity is -9.81 m/s^2. Once you find the time, multiply it by the horizontal velocity component (26 m/s * cos(30°)) to determine the total distance. The ball would travel approximately 63 m before hitting the ground.
To calculate the time the ball was in the air, you can use the kinematic equation for projectile motion. The time of flight is given by the formula: time = 2 * initial velocity * sin(angle) / acceleration due to gravity. Plugging in the values (initial velocity = 26 m/s, angle = 30 degrees, acceleration due to gravity = 9.81 m/s^2), you can calculate the time to be approximately 2.4 seconds.
The maximum height of the ball can be calculated using the formula h = (v^2 * (sin(theta))^2) / (2 * g), where v is the initial velocity (26 m/s), theta is the launch angle (30 degrees converted to radians), and g is the acceleration due to gravity (9.81 m/s^2). Plugging in the values, we find that the maximum height attained by the ball is approximately 10.7 meters.
Yes, a soccer ball has energy when it is either moving (kinetic energy) or when it is elevated above the ground (potential energy). When kicked, the stored energy in a player's leg is transferred to the ball, giving it kinetic energy as it moves.
Rounding to the nearest tenth of a second the answer would either be 2.6 or 2.7 seconds ^^ 2.6 is the answer
Soccer cleats provides the appropriate grip to the turf or ground. They would not be used on solid ground as they would not break the surface to afford the player grip.
If it completely passes the field's boundaries, yes, no matter if it's rolling or flying.
To find the horizontal distance the soccer ball traveled before hitting the ground, we can use the projectile motion equations. The horizontal component of the initial velocity is ( v_x = 26 \cos(30^\circ) ) and the vertical component is ( v_y = 26 \sin(30^\circ) ). The time of flight can be calculated using the vertical motion equation, and then the horizontal distance can be found by multiplying the horizontal velocity by the time of flight. The total distance traveled by the ball is approximately 34.5 meters.
The horizontal velocity component of the ball can be found by using the equation: horizontal velocity = initial velocity * cos(angle). In this case, the initial velocity is 26 m/s and the angle is 30 degrees. Plugging in the values, we get: horizontal velocity = 26 m/s * cos(30) ≈ 22.5 m/s.
A soccer player.
Soccer Player mate
They usually wear cleats. They are shoes with studs on the bottom so the player has good grip on the ground.
if you play soccer
tariq is a good soccer player
a glorified soccer player is an kicker for the nfl
No degrees. What you need is talent, athletic skills, persistence, a bit of luck, and connections to teams.