The motion of a vibrating particle is defined by the position vector r = 10(1 − e−3t)i + (4e−2tsin 15t)j, where r and t are expressed in millimeters and seconds, respectively. Determine the velocity and acceleration when t = 0.5 s. When t = 0.5 s, the velocity is ____mm/s ∡ 36.2° and the acceleration is ____mm/s2 ⦫ ____ °.

The motion of a vibrating particle is defined by the position vector r = 10(1 − e−3t)i + (4e−2tsin 15t)j, where r and t are expressed in millimeters and seconds, respectively. Determine the velocity and acceleration when t = 0.5 s. When t = 0.5 s, the velocity is mm/s ∡ 36.2° and the acceleration is mm/s2 ⦫ °.

Related questions

Q: The position of an object at time is given by the parametric equations . x= 4t^2+2t , y=3t^2+4 Find…

A: The position of the object at time in x and y direction is given by, x = 4t^2 + 2t y = 3 t^2 +4 t…

Q: A graph of x vs. t4, with x on the vertical axis and t4 on the horizontal axis, is linear. Its slope…

Q: Light travels at a speed of about 3.0 x 108 m/s. (a) How many miles does a pulse of light travel in…

A: Given value--- speed of light = 3 × 108 m/s. time = 0.1 sec We have to find--- (a) How many…

Q: given the quantities a=4.6m, b=4.4s, c=75 m/s, what is the value of the quantity d=a^3/cb^2?

Q: Problem 2: A new landowner has a triangular piece of flat land she wishes to fence. Starting at the…

Q: The vectors in the diagram represent displacements of a particle where A = 23.6 cm, B = 19.3 cm, and…

Q: “An object is moving at a speed of v(t)= 3(t^2-1)+5tan (7t), where V is in m / s and t in seconds.…

A: Given V(t) = 3t2 -3 +5tan(7t) The acceleration si A(t) = ????

Q: A surveying team records the following displacement vectors on three days (24 hour days) of walking,…

A: Given: Displacement vectors corresponding to three days are given d1 = (7i + 8j) km d2 = (6i + 2j)…

Q: The velocity of a rocket is given as a function of time by v(t) = A(1 – e-bt) for 0 , t , 30 s,…

A: Given velocity v(t) = A(1 – e-bt)........(1) a. we can see the unit of A is same the unit of v and…

Q: Why is it km and not meters, if c = 3x10^8 m and G has meter in the constant

Q: PROBLE A surveyor walks as shown in the figure then due south for 10.0km. What is his total…

A: Q 1) The ratio of distance moved is South and East is 2:3. Let them be 2x towards south and 3x…

Q: space probe on the surface of Mars sends a radio signal back to the Earth, a distance of 9.86 ✕ 107…

Q: If you make multiple measurements of your height, you are likely to find that the results vary by…

Q: find the area velocity of a particle moving along the path r= a cos w t i + b sin w t j, where a, b…

A: The area velocity is given by dA⇀dt=r⇀×dr⇀dt2 given that r⇀=acosωti^+bsinωtj^…

Q: The displacement vectors A and B shown in the figure below both have magnitudes of 1.90 m. The…

Q: An object is dropped from rest and takes 2.25 seconds to reach the ground below. From what distance…

A: Given : vo = 0 (because object is dropped from rest) y = 0 (because finally the object reaches the…

Q: If the period of a circular motion is 0.2 minutes, what is its frequency, in hertz?

A: given : T = 0.2 minutes

Q: [1] 1 + (1-161²) is the position of a particle in space at time t. Find the angle between the…

Q: vector A has components Ax = -3.0 and Ay = -4.0, and vector B has components Bx = 3.0 and By = -8.0,…

Q: ectonic plates are large segments of the earth's crust that move slowly. Suppose one such plate has…

A: Given that: Speed of Tectonic plates, v= 3 cm/year =3×10-2(365×24×3600)=9.51×10-10 m/s

Q: The polar coordinates of a certain point are (r = 2.00 cm, θ = 234°). (a) Find its Cartesian…

Q: A space probe on the surface of Mars sends a radio signal back to the Earth, a distance of 7.27 ✕…

A: The time taken by the wave is given by:

Q: Mime 1 goes through a displacement d1→=(5.58m)î + (8.66m)ĵ. Mime 2 goes through a displacement…

Q: Assume you have the following two vectors: A = 11.5i + 17.5j + 19.5k B = 4.9i + 9.5j - 1.1k…

Question

The motion of a vibrating particle is defined by the position vector r = 10(1 − e^−3t)i + (4e^−2tsin 15t)j, where r and t are expressed in millimeters and seconds, respectively.

Determine the velocity and acceleration when t = 0.5 s.

When t = 0.5 s, the velocity is ____mm/s ∡ 36.2° and the acceleration is ____mm/s² ⦫ ____ °.

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Step 3

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 3 steps

SEE SOLUTION Check out a sample Q&A here

Similar questions

If you make multiple measurements of your height, you are likely to find that the results vary by nearly half an inch in either direction due to measurement error and actual variations in height. You are slightly shorter in the evening, after gravity has compressed and reshaped your spine over the course of a day. One measurement of a man's height is 6 feet and 1 inch. Express his height in meters, using the appropriate number of significant figures.
Vector C can be written (-3i+1j) cm O (-4i+2j) cm O (i-3j) cm (2i+-4j) cm 1 y (cm) 2 1 x (cm)
A person running through the forest with equation: y(x, t) = (1.1 m)cos(3.1x – 7.1t) for which x has units of meters and t has units of seconds. Calculate the speed of the person running in m/s. Include postive or negative sign in the answer to show which direction the person is moving in
D = (oxt) + (1/2 * 8.93* (4.7)2) I D = 98.63 meter 5. You are about to skateboard down a long hill. Your initial velocity is 2.0 m/s south. When you reach the bottom of the hill you are travelling 6.0 m/s south. It took you 57 seconds to reach the bottom of the hill. What was your displacement?
An object is dropped from rest and takes 2.42 seconds to reach the ground below. From what distance above the ground was it dropped? State this as a positive number and assume it has proper SI Units.
The velocity of an object is given by, = u + at V ds dt. where, u is the initial velocity, a is the acceleration, and ₺ is the time in seconds. Solve the differential equation to obtain the displacement, s, given that at t = 0, s = 7 (metres) : 1 if u = 3 ms ¹, a = 2.4 ms 2, calculate the displacements at t = 4.9 seconds. Give your answer to 2 decimal places.
The position of an object in circular motion is modeled by the given parametric equations, where t is measured in seconds. x=7sin((pi/8)t), y=-7cos((pi/8)t) How long (in sec) does it take to complete one revolution?
The acceleration of a particle is a constant. At t=0 the velocity of the particle is (14.91 + 18.4ĵ) m/s. At t = 4.6 s the velocity is 11.4j m/s. (Use the following as necessary: t. Do not include units in your answers.) (a) What is the particle's acceleration (in m/s²)? = î+ 18.4 v(t) = (b) How do the position (in m) and velocity (in m/s) vary with time? Assume the particle is initially at the origin. r(t) = î+ X Î- i) m/s m/s
Which of the following calculations have the correct number of significant figures in the final result? 2.2 ст + 2.00 ст — 4.20 ст O 12.34 g 3.94 cm³ 3.132 cm3 V 2.0 cm - 1 cm = 1 cm V 11.32 cm x 6.31 cm x 6.762 cm = 4.83 × 10² cm³ V 10.32 cm × 6.31 cm × 6.762 cm = 4.40 × 10² cm³ V 1.0 x 10'g 0.27 cm 37 cm
A space probe on the surface of Mars sends a radio signal back to the Earth, a distance of 6.65 ✕ 107 km. Radio waves travel at the speed of light (3.00 ✕ 108 m/s). How many seconds does it take for the signal to reach the Earth?
An object's velocity as a function of time in one dimension is given by the expression; v(t) = 3.8t + 6.68 where are constants have proper SI Units. At what time is the object's velocity 61.2 m/s?
A person runs at a pace of 6.52mi/hr. How long does it take the person to run a 15.0⁢km race? (1mi=1.61km)