As we don't know the difference of the speeds and all that, we can only determine that the car that is moving faster will hit farther out. Nothing more than that can be determined. The faster car will hit as distance d and the expression that states all we know is this one: d > 10 meters. It's an inequality, but it's the best we can do given the initial information.
Yes.
A). Vertical displacement = 12.5 sin(20) = 4.275 meters (rounded)B). Horizontal displacement = 12.5 cos(20) = 11.746 meters (rounded)
45 feet = 13.72 meters
A distance of 300 meters is 30% of a kilometer.
50 meters in 10 seconds is faster. you go 5 meters per second in 50 meters per second, and you go 6 meters a second in 5 seconds..
90 meters
90 Meters+ 10 meters for running cables so 100 meters is the total.
90 Meters
To find the horizontal distance traveled by the soccer ball, you can use the equation: horizontal distance = horizontal velocity x time. The horizontal velocity is given by the formula Vx = V0 cosθ, where V0 is the initial velocity and θ is the angle of projection. Substituting the given values: Vx = 10.0 m/s * cos(30°) = 8.66 m/s. Then, the horizontal distance = 8.66 m/s * 3.2 s = 27.71 meters.
If the non-horizontal projectile is launched abovehorizontal, thenit's the second one to hit the ground, after the horizontal one.If the non-horizontal one is launched below horizontal, then it'sthe first to hit the ground, before the horizontal one.
The maximum distance specified in the standard is 100 meters. 90 meters of that length may be for the actual horizontal wiring and 10 meters for connections from the horizontal wiring to the workstation. The total length is 100 meters, however.
The horizontal distance between 2 waves or 2 crests is called the wavelength. It is the distance from one point on a wave to the equivalent point on the next wave. It is typically measured in meters or other units of length.
The horizontal distance between two wave crests is called the wavelength. It is the distance between two consecutive points on a wave that are in phase with each other, such as two crests or two troughs. Wavelength is usually denoted by the symbol λ and is measured in meters.
1 kilometre = 1000 metres. that is true whether the distance is horizontal, vertical or in any other direction.
2669m
Using the horizontal distance and horizontal velocity of the ball, you can calculate the time it took for the ball to reach the ground. Then, you can use the time and the vertical acceleration due to gravity to find the height of the cliff using the equation: height = (1/2) * gravity * time^2. In this case, the height of the cliff would be approximately 11.3 meters.
To calculate the vertical fall over a horizontal distance at a given angle, you can use trigonometry. In this case, the fall at 2 degrees over 6 meters can be calculated using the formula: vertical fall = horizontal distance * tan(angle). Plugging in the values, the vertical fall would be approximately 0.21 meters, or 21 centimeters.