Part C Constants A remote-controled car is moving in a vacant parking lot. The velocity of...
Exercise 3.8 Constants A remote-controlled car is moving in a vacant parking lot. The velocity of the car as a function of time is given by 0 15.00 m/s-(0.0180 m/s )li+ 2.00 m/s + (0.60 m/tj
A remote-controlled car is moving in a vacant parking lot The velocity of the car as a function of time is given by U - [5.00 m/s (0.0180 m/')tli + [200 m/s + (0.550 m/s,tj We were unable to transcribe this imageWe were unable to transcribe this image
i already tried poaitive 65.2 A remote-controlled car is moving in a vacant parking lot. The velocity of the car as a function of time is given by v = [5.00 m/s - (0.0180 m/s^3)t^2]i + [2.00 m/s + (0.550 m/s^2)t]j. What is the direction (in degrees counterclockwise from +x-axis) of the acceleration of the car at t = 7.05 s ? Express your answer to three significant figures and include the appropriate units.
A remote-controlled car is moving in a vacant parking lot. The velocity of the car as a function of time is given by υ⃗ =[5.00m/s−(0.0180m/s3)t^2]i^ + [2.00m/s+(0.550m/s^2)t]j^. What is the direction (in degrees counterclockwise from +x-axis) of the acceleration of the car at t = 7.48 s ? Express your answer to three significant figures and include the appropriate units.
A remote-controlled car is moving in a vacant parking lot. The velocity of the car as a function of time is given by υ⃗ =[5.00m/s−(0.0180m/s3)t2]i^ + [2.00m/s+(0.550m/s2)t]j^ a> What is ax(t) the x-component of the acceleration of the car as function of time? ax(t)=(−0.0180m/s3)t ax(t)=(0.0360m/s3)t ax(t)=(−0.0360m/s3)t b> What is ay(t) the y-component of the acceleration of the car as function of time? ay(t)=2.00m/s2 ay(t)=0.550m/s2 ay(t)=(−0.550m/s2)t c> What is the magnitude of the velocity of the car at t = 6.59...
first picture has the information you need to do the other parts A remote-controlled car is moving in a vacant parking lot. The velocity of the car as a function of time is given by ū– (5.00 m/s – (0.0180 m/s”){%)+ [2.00 m/s + (0.550 m/s?)t)ì. Part C What is the magnitude of the velocity of the car at t = 6.73 s? Express your answer to three significant figures and include the app ? v= Value Units Submit Request...
Exercise 6.8 Constants Part A A loaded grocery cart is rolling across a parking lot in a strong wind. You apply a constant force F- (35 N )i -(38 N )j to the cart as it undergoes a displacement s8.6 m i -(27 m)j. How much work does the force you apply do on the grocery cart? Express your answer using three significant figures. Submit Request Answer
Exercise 6.8 Constants Part A A loaded grocery cart is rolling across a parking lot in a strong wind. You apply a constant force F (32 N)i (40 N)j to the cart as it undergoes a displacement-9.5m)i (3.6 m)j. How much work does the force you apply do on the grocery cart? Express your answer using three significant figures Submit Reguest Answer
Need help with A-C Constants | Penodic Table PartA A particle moving along tha x ais has its pasition described by the function 2.00 卢_ 5 00 t + 1.00 ) m, wherat is in s At t: 4 00, what are the particle's lal position, (b) velocity, and (c) acceleration? Express your answer with the appropriate units. HA 0回 Value Units Submit Part B Express your answer with the appropriate units. HA Value Units Submit Part c Expreas your...
Part C Constants Calculate the instantaneous velocity of the car at t 5.00s. A car is stopped at a traffic light. It then travels along a straight road so that its distance from the light is given by z(t) = bt2-ct, where b 3.00 m/s and e 0.110 m/s VO AED ? m/s You may want to review (Pages 37 -40) For related problemsolving tips and strategies, you may want to viewa Video Tutor Solution of Average and instantaneous velocities....