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To determine the maximum height reached in projectile motion, you can use the formula: textMaximum height left(fracv02 sin2(theta)2gright) where ( v0 ) is the initial velocity, ( theta ) is the launch angle, and ( g ) is the acceleration due to gravity. By plugging in these values, you can calculate the maximum height the projectile reaches.
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How can one determine the maximum height reached by a projectile?
To determine the maximum height reached by a projectile, you can use the formula: maximum height (initial vertical velocity)2 / (2 acceleration due to gravity). This formula calculates the height based on the initial vertical velocity of the projectile and the acceleration due to gravity.
How can one determine the maximum height reached by an object launched with a given initial velocity?
To determine the maximum height reached by an object launched with a given initial velocity, you can use the formula for projectile motion. The maximum height is reached when the vertical velocity of the object becomes zero. This can be calculated using the equation: Maximum height (initial velocity squared) / (2 acceleration due to gravity) By plugging in the values of the initial velocity and the acceleration due to gravity (which is approximately 9.81 m/s2 on Earth), you can find the maximum height reached by the object.
What is the maximum height reached by a projectile shot straight up from the Earth's surface at a speed of 10000 km/hr?
The maximum height reached by a projectile shot straight up from the Earth's surface at a speed of 10000 km/hr is approximately 138.9 kilometers.
What is the maximum height reached by a projectile shot straight up from the Earth's surface at a speed of 8000 km/hr?
The maximum height reached by a projectile shot straight up from the Earth's surface at a speed of 8000 km/hr is approximately 222.22 kilometers.
What is the maximum height reached by a projectile shot straight up from the Earth's surface at a speed of 9000 km/hr?
The maximum height reached by a projectile shot straight up from the Earth's surface at a speed of 9000 km/hr is approximately 225 kilometers.
How can one determine the maximum height reached by a projectile?
To determine the maximum height reached by a projectile, you can use the formula: maximum height (initial vertical velocity)2 / (2 acceleration due to gravity). This formula calculates the height based on the initial vertical velocity of the projectile and the acceleration due to gravity.
How can one determine the maximum height reached by an object launched with a given initial velocity?
To determine the maximum height reached by an object launched with a given initial velocity, you can use the formula for projectile motion. The maximum height is reached when the vertical velocity of the object becomes zero. This can be calculated using the equation: Maximum height (initial velocity squared) / (2 acceleration due to gravity) By plugging in the values of the initial velocity and the acceleration due to gravity (which is approximately 9.81 m/s2 on Earth), you can find the maximum height reached by the object.
What is the maximum height reached by a projectile shot straight up from the Earth's surface at a speed of 10000 km/hr?
The maximum height reached by a projectile shot straight up from the Earth's surface at a speed of 10000 km/hr is approximately 138.9 kilometers.
What is the maximum height reached by a projectile shot straight up from the Earth's surface at a speed of 8000 km/hr?
The maximum height reached by a projectile shot straight up from the Earth's surface at a speed of 8000 km/hr is approximately 222.22 kilometers.
What is the maximum height reached by a projectile shot straight up from the Earth's surface at a speed of 9000 km/hr?
The maximum height reached by a projectile shot straight up from the Earth's surface at a speed of 9000 km/hr is approximately 225 kilometers.
What is the maximum height reached by a projectile shot straight up from the Earth's surface at a speed of 1.20104 km/hr?
The maximum height reached by a projectile shot straight up from the Earth's surface at a speed of 1.20 x 104 km/hr is approximately 72 kilometers.
What is the maximum height reached by a projectile shot straight up from the Earth's surface at a speed of 1.10104 km/hr?
The maximum height reached by a projectile shot straight up from the Earth's surface at a speed of 1.10104 km/hr is determined by the formula: Maximum height (initial velocity)2 / (2 acceleration due to gravity) Given that the initial velocity is 1.10104 km/hr, we can convert this to m/s by multiplying by 1000/3600. The acceleration due to gravity is approximately 9.81 m/s2. Plugging in the values, we can calculate the maximum height reached by the projectile.
What is the maximum height reached by a projectile shot straight up from the Earth's surface at a speed of 1.00 x 104 km/hr?
The maximum height reached by a projectile shot straight up from the Earth's surface at a speed of 1.00 x 104 km/hr is approximately 2.78 kilometers.
What is the maximum height reached by a projectile shot straight up from the Earth's surface at a speed of 1.40 x 104 km/hr?
The maximum height reached by a projectile shot straight up from the Earth's surface at a speed of 1.40 x 104 km/hr is approximately 1.96 kilometers.
What is the maximum height reached by a projectile shot straight up from the Earth's surface at a speed of 1.30 x 104 km/hr?
The maximum height reached by a projectile shot straight up from the Earth's surface at a speed of 1.30 x 104 km/hr is approximately 1.88 x 106 meters.
How high does projectile go?
The maximum height of a projectile depends on its initial velocity and launch angle. In ideal conditions, the maximum height occurs when the launch angle is 45 degrees, reaching a height equal to half the maximum range of the projectile.
How does the launch angle relate to the initial speed of the projectile?
The launch angle and initial speed of a projectile are both factors that determine the range and height of the projectile. A higher launch angle with the same initial speed will typically result in a longer range but lower maximum height. Conversely, a lower launch angle with the same initial speed will result in a shorter range but a higher maximum height.
