0
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.
What else can I help you with?
A golfer tees off and hits a golf ball at a speed of 31 ms and at an angle of 35 degrees. What is the horizontal velocity component of the ball Round the answer to the nearest tenth of a ms.?
The horizontal velocity component of the ball can be calculated using the formula: horizontal velocity = initial velocity * cos(angle). Substituting the values, we get: horizontal velocity = 31 m/s * cos(35 degrees) ≈ 25.3 m/s.
A golfer tees off and hits a golf ball at a speed of 31 ms and at an angle of 35 degrees. What is the vertical velocity component of the ball Round the answer to the nearest tenth of a ms.?
The vertical velocity component of the ball can be found by multiplying the initial speed (31 m/s) by the sine of the launch angle (35 degrees). Vertical velocity = 31 m/s * sin(35) ≈ 17.7 m/s. The vertical velocity component is approximately 17.7 m/s.
A player kicks a soccer ball from ground level and sends it flying at an angle of 30 degrees at a speed of 26 ms. How far did the ball travel before it hit the ground Round the answer to the nearest m?
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.
A player kicks a soccer ball from ground level and sends it flying at an angle of 30 degrees at a speed of 26 ms. How long was the ball in the air Round the answer to the nearest tenth of a second.?
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.
What is the least count of prismatic compass?
The least count of a prismatic compass is typically 0.5 degrees. This means that the compass can measure angles accurately to the nearest 0.5 degrees.
A golfer tees off and hits a golf ball at a speed of 31 ms and at an angle of 35 degrees. What is the horizontal velocity component of the ball Round the answer to the nearest tenth of a ms.?
The horizontal velocity component of the ball can be calculated using the formula: horizontal velocity = initial velocity * cos(angle). Substituting the values, we get: horizontal velocity = 31 m/s * cos(35 degrees) ≈ 25.3 m/s.
A golfer tees off and hits a golf ball at a speed of 31 ms and at an angle of 35 degrees. What is the vertical velocity component of the ball Round the answer to the nearest tenth of a ms.?
The vertical velocity component of the ball can be found by multiplying the initial speed (31 m/s) by the sine of the launch angle (35 degrees). Vertical velocity = 31 m/s * sin(35) ≈ 17.7 m/s. The vertical velocity component is approximately 17.7 m/s.
A player kicks a soccer ball from ground level and sends it flying at an angle of 30 degrees at a speed of 26 ms. How far did the ball travel before it hit the ground Round the answer to the nearest m?
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.
What is sec 13 degrees to the nearest hundredths?
13.00 degrees.
How many degrees Fahrenheit is 43 degrees Celsius and round it to the nearest tenth of a degree?
43 degrees Celsius is equal to 109.4 degrees Fahrenheit when rounded to the nearest tenth.
What are identified by numbers that represent the orientation in compass degrees rounded to the nearest ten?
Compass bearings - to the nearest 10 degrees.
What is the sin of 42 degrees rounded to the nearest hundredth?
42.00
What is the nearest star to Earth beyond the sun?
Toliman. This is a star system; the component nearest to Earth is Proxima Centauri.
What is 79 degrees rounded to the nearest whole degree?
80 degrees.
How many degrees Fahrenheit is 43 degrees Celsius and round it to the nearest tenth place?
43 degrees Celsius is equal to 109.4 degrees Fahrenheit when rounded to the nearest tenth place.
After running out of gas three people push their 700 kg car up a hill at an angle of 10o from the horizontal What force do they have to apply to maintain a constant velocity up the hill?
haha alot. they should save their energy and walk to the nearest gas station
The tangent of an angle is 0.8 what is the measure of the angle to the nearest tenth?
tan-1(0.8) = 38.65980825 degrees or 38.7 degrees to the nearest tenth.
