Immediately after the bouncing golf ball leaves the floor, its components of velocity are Vx = 0.841 m/s, and Vy = 3.503 m/s. Determine the horizontal distance (meters) from the point where the ball left the floor to the point where it hits the floor again.
Q: A remote-controlled car is moving around in a level (horizontal) parking lot. The velocity of the…
A:
Q: The vector position of a particle varies in time according to the expression 7(t)=(1.76 t + 1.56)7…
A: Given data: The equation of particle which varies in time is given as, The equation of velocity…
Q: Find the speed and direction of an object with v,= 2.0 cm/s and vy= 3.0 cm/s. O 3.6 cm/s, 56° from…
A: Given data: Vx = 2.0 cm/s Vy = 3.0 cm/s Required: The speed and direction of the object
Q: A projectile is fired northward from a height of 157m. Assuming that the x-axis is pointing east,…
A:
Q: Consider a projectile launched at a height h feet above the ground and at an angle 0 with the…
A: “Since you have posted a question with multiple sub-parts, we will solve first three sub-parts for…
Q: A spaceship is traveling at a constant velocity of v(t) = 300.0i m/s when its rockets fire, giving…
A: The initial velocity of the object is 300.0iˆm/s.The acceleration of the object is…
Q: A golf coach is showing her athletes how to hit a golf ball from the ground. Using her driver, she…
A: A. How long is the ball in the air before it first hits the ground?In the given parametric…
Q: Problem 3: A soccer ball is kicked from the ground at an angle of 0 = 53 degrees with respect to the…
A: Given, The launched angle of the soccer ball is θ = 530 ( with respect to the horizontal ) The…
Q: ntimeters and base 59.3 centimeters. Taking xo 0 at the top of the incline, the horizontal location…
A:
Q: On a spacecraft, two engines are turned on for 841 s at a moment when the velocity of the craft has…
A:
Q: Problem 1: An object is thrown off the top of a building with velocity 26 m/s at an angle of 35°…
A: Given data: Initial velocity of object, u=26 m/s Angle from the horizontal, θ=35o Time of flight,…
Q: How far horizontally (in m) does the rock hit the ravine from your location?
A: The point at which path of rock cut the path of ravine will be the hitting point.
Q: The horizontal distance traveled by a ball moving with initial velocity v0 is x = v0,xt where v0,x…
A:
Q: The vector position of a particle varies in time according to the expression: r =( 20ti+(2 + 20t-5t…
A: The position vector of the particle is given as: r→=20t i^+2+20t-5t2j^ It is required to find its…
Q: When chasing a hare along a flat stretch of ground, a greyhound leaps into the air at a speed of…
A: speed = v=12.1 m/s angle θ=27.0° above the horizontal
Q: At t = 0, a particle moving in the xy plane with constant acceleration has a velocity of i = (3.00 i…
A:
Q: Find the x- and y-components of the vector d⃗ �→ = (4.0 kmkm , 29 degrees left of +y-axis). Find…
A:
Q: A projectile is fired vertically upward from a height of 225 feet above the ground, with an initial…
A:
Q: A particle moves horizontally in uniform circular motion, over a horizontal xy plane. At one…
A:
Q: A soccer ball is punted from the ground at an angle of θ = 46 degrees with respect to the…
A: Angle, θ = 46 degrees Time of flight, T = tm = 1.9 s Horizontal distance, dm = d = ?
Q: A ball is thrown upward, with an initial velocity of 35 meters per second, at an angle of 59° with…
A: The initial velocity of the ball is 35 m/s at an angle of 59o with respect to horizontal.The height…
Q: A student standing on a cliff that is a vertical height d = 8.0 m above the level ground throws a…
A:
Q: The velocity V of a particle moving in the xy plane is given by 7 = ( 5.50 t - 5.00 7 )î + 9.00 3.…
A: According to question we need to find--- at which time the velocity of the object will be zero?
Q: A ball thrown horizontally at vi = 25.0 m/s travels a horizontal distance of d = 50.0 m before…
A:
Q: A remote-controlled car is moving around in a level (horizontal) parking lot. The velocity of the…
A: velocity is defined as the rate of change of displacement of an object with respect to time.…
Q: At time t = 0 a particle at the origin of an xyz-coordinate system has a velocity vector of vo =…
A: Equation of motion for the given condition is v=v0+at
Q: The vector position of a particle varies in time according to the expression F(t)=(1.41 t + 1.72)i…
A:
Q: An object has an initial velocity of 29.0 m/s at 95.0° and an acceleration of 1.90 m/s2 at 200.0°.…
A: (a) The horizontal component of the initial velocity is given as,
Immediately after the bouncing golf ball leaves the floor, its components of velocity are Vx = 0.841 m/s, and Vy = 3.503 m/s. Determine the horizontal distance (meters) from the point where the ball left the floor to the point where it hits the floor again.
Trending now
This is a popular solution!
Step by step
Solved in 3 steps with 3 images
- A particle initially located at the origin has an acceleration of a = 4.00j m/s? and an initial velocity of v = 9.00î m/s. (a) Find the vector position of the particle at any time t (where t is measured in seconds). tî + 2 j) m (b) Find the velocity of the particle at any time t. î + tj) m/s (c) Find the coordinates of the particle at t = 6.00 s. y%3D m (d) Find the speed of the particle at t = 6.00 s. m/s Need Help? Read It Watch It P Type here to searchA person stands at the edge of a cliff and throws a rock horizontally over the edge with a speed of Vo = 22.0 m/s. The rock leaves his hand at a height of h = 46.0 m above level ground at the bottom of the cliff, as shown in the figure. Note the coordinate system in the figure, where the origin is at the bottom of the cliff, directly below where the rock leaves the hand. = i (a) What are the coordinates of the initial position of the rock? (Enter your answers in m.) хо Yo = Voy Vy y = 4o (b) What are the components of the initial velocity? (Enter your answers in m/s.) Vox m/s m/s 11 m m (c) Write the equations for the x- and y-components of the velocity of the rock with time. (Use the following as necessary: t. Assume that vx and v, are in m/s and t is in seconds. Do not include units in your answers.) oral m/s m/s Simuna wir + Accumo that y andy are in meters and it is in seconds. Do notA golf ball is hit upward, with an initial velocity of 47 meters per second, at an angle of 25° with respect to the horizontal. The ball is hit from a height of 8 meters above the ground. The horizontal distance x from the starting point and the height y above the ground of the ball t seconds after it is hit are given by the parametric equations below. x=(v0cosθ)t y=−4.9t^2+(v0sinθ)t+h Here v0 is the initial velocity, θ is the initial angle with respect to the horizontal, and h is the initial height. Use the equations to answer the following questions. (a)How long is the ball in the air before it first touches the ground?Do not round any intermediate computations. Round your answer to the nearest hundredth. _____ seconds (b)What is the horizontal distance the ball travels before it first touches the ground?Round your answer to the nearest whole number. _____ meters
- A ball is released from rest at the top of an incline whose height 19.1 centimeters and base 59.3 centimeters. Taking x0 = 0 at the top of the incline, the horizontal location (along the base, in centimeters) of the ball after 0.552 seconds is:Consider a projectile launched at a height h feet above the ground and at an angle ? with the horizontal. If the initial velocity is v0 feet per second, the path of the projectile is modeled by the parametric equations x = t(v0 cos(?)) and y = h + (v0 sin ?)t - 16t2.Let h=6, v0=63.25, and ?=0.79. What is the range of the projectile (i.e., how far does it travel? Round your answers to two decimal places).A particle initially located at the origin has an acceleration of a = 2.00ĵ m/s² and an initial velocity of = 6.00î m/s. (a) Find the vector position of the particle at any time t (where t is measured in seconds). ( tî + (²ĵ) m f (b) Find the velocity of the particle at any time t. ( î+ tj) m/s (c) Find the coordinates of the particle at t = 7.00 s. X = y = m m (d) Find the speed of the particle at t = 7.00 s. m/s Submit Answer
- You can use any coordinate system you like in order to solve a projectile motion problem. To demonstrate the truth of this statement, consider a ball thrown off the top of a building with a velocity v at an angle 0 with respect to the horizontal. Let the building be 54.0 m tall, the initial horizontal velocity be 9.10 m/s, and the initial vertical velocity be 10.5 m/s. Choose your coordinates such that the positive y-axis is upward, and the x-axis is to the right, and the origin is at the point where the ball is released. (a) With these choices, find the ball's maximum height above the ground and the time it takes to reach the maximum height. maximum height above ground time to reach maximum height (b) Repeat your calculations choosing the origin at the base of the building. maximum height above ground time to reach maximum heightThe acceleration of a particle moving only on a horizontal xy plane is given by a = 611 +71), where a is in meters per second- squared and t is in seconds. At t = 0, the position vector 7= (23.0m)i + (45.0m) locates the paticle, which then has the velocity vector 7 = (6.40m/s) + (2.60m/s)). At t - 3,40s, what are (a) its position vector in unit-vector notation and (b) the angle between its direction of travel and the positive direction of the x axis?During a baseball game the ball is hit at home base 1 meter above ground level with a bat. After having traveled a horizontal distance of 30 m, it is 20 m above ground level. An outfielder runs to meet the ball and catches it as he dives, just 10 cm from the ground. The outfielder is 80 m away from home base when he catches the ball. Assuming the path of the ball is approximately parabolic, what is the greatest height the ball reaches?
- The position vector r describes the path of an object moving in space. Find the velocity v (t), speeds (t), and acceleration a (t), of the object. r(t) = (et cos(t), et sin(t), et) v(t) = +An arrow is fired with an initial velocity v0 at an angle θ0 above horizontal. Assume the arrow moves without air resistance. Use a Cartesian coordinate system with the origin at the arrow's initial position to analyze the arrow's motion. Some time later the arrow makes an angle of θ = 15 degrees with respect to the horizontal. Write an expression for the time, t, that passes between when the arrow was fired and this later point. t = ?Just need help with part B