For the following equations: ?E = − 6.0 cos 45° m/s + 3.0 m/s, ?L =...

A body oscillates with simple harmonic motion according to the equation x = 6.0 cos(3t +...

A body oscillates with simple harmonic motion according to the equation x = 6.0 cos(3t + π/3) where the units are SI. The speed of the body when it has a displacement of 3 m is...Can someone show me how to solve this problem step by step? A. 6π m/s B. 9π m/s C. m/s D. 18π m/s E. m/s

Find the derivative of the following: f(s)=cos(π/2(s))sin(π/2(s)) If f(q)=e−5qcos(2πq), then f′(q) is f(y)=cos(π/2*y2) e3x+7/x2-1 If f(q)=e-5qcos(2πq),...

Find the derivative of the following: f(s)=cos(π/2(s))sin(π/2(s)) If f(q)=e−5qcos(2πq), then f′(q) is f(y)=cos(π/2*y2) e3x+7/x2-1 If f(q)=e-5qcos(2πq), then f′(q) is 1/(2−e2s)4=

Consider the following grammar S -> A M M -> S | A -> a E...

Consider the following grammar S -> A M M -> S | A -> a E | b A A E -> a B | b A | B -> b E | a B B Show a derivation for the string a b a a. Start with S => A M => ... and in each step replace one nonterminal by the right-hand side of a grammar rule until you end up with the symbols a b a a...

A particle with charge q = 6.0 nC   and mass m = 3.0×10−11 kg which is...

A particle with charge q = 6.0 nC   and mass m = 3.0×10−11 kg which is initially at rest accelerates through a potential difference V = 100 V and enters into a region 0 < x < d, where there is a uniform magnetic field of magnitude B = 1.5 T with direction perpendicular to the plane of the paper and inward. Use the coordinate system shown in the figure to answer the following questions. (Gravitational force on the particle...

Problem 1: Which of the following equations represents a plane which is parallel to the plane...

Problem 1: Which of the following equations represents a plane which is parallel to the plane 36?−18?+12?=30 and which passes through the point (3,6,1) ? a). 6?−3?+2?=3 b). 6?+3?−2?=34 c). 36?+18?−12?=204 d). 6?−3?+2?=2 e). 36?+18?+12?=228 Problem 2: At which point(s) does the helix r (t)=〈cos??/4, sin??/4, ?〉 intersect the sphere ?2+?2+?2=5 ? a). (0,1,2) and (0,−1,−2) b). (−1,0,4) and (−1,0,−4) c). (1,0,4) and (−1,0,−4) d). (0,1,−1) and (0,1,1) e). (0,1,−1) and (0,−1,1)

Gram Stain Flow Chart for the Organisms: N.sicca, M. luteus, S. epidermidis, E. coli, M. roseus,...

Gram Stain Flow Chart for the Organisms: N.sicca, M. luteus, S. epidermidis, E. coli, M. roseus, B. subtilis, B. cereus, S. marcesens, R. rubrum, B. cattarhalis, B. megaterium, S. liquefaciens, E. aerogenes, C. fruendii, E. cloacae, C. xerosis, P. stuartii, A. faecalis Correct identification of your gram negative bacterium, and the correct identification of your Gram positive bacterium. For each unknown submit two guesses: Choice 1 and Choice 2. A “Plan of Action”; a schematic representation of what lab procedures...

Two dragonflies have the following equations of motion: x1 = 2.2 m + (0.71 m/s )t...

Two dragonflies have the following equations of motion: x1 = 2.2 m + (0.71 m/s )t x2 = –3.1 m + (1.4 m/s )t Which dragonfly is moving faster?​ Which dragonfly starts out closer to x = 0 at t = 0?

Solve the following differential equations. A spring has a constant of 4 N/m. The spring is...

Solve the following differential equations. A spring has a constant of 4 N/m. The spring is hooked a mass of 2 kg. Movement takes place in a viscous medium that opposes resistance equivalent to instantaneous speed. If the system is subjected to an external force of (4 cos(2t) - 2 sin(2t)) N. Determine: a. The position function relative to time in the transient state or homogeneous solution b. Position function relative to time in steady state or particular solution c....

Write net ionic equations for the following reactions. 1.2AgNO3(aq)+Fe(s)→Fe(NO3)2(aq)+2Ag(s) 2. 2NaI(aq)+Br2(l)→2NaBr(aq)+I2(s) 3. 2AuCl3(aq)+3Sn(s)→3SnCl2(aq)+2Au(s)

Write net ionic equations for the following reactions. 1.2AgNO3(aq)+Fe(s)→Fe(NO3)2(aq)+2Ag(s) 2. 2NaI(aq)+Br2(l)→2NaBr(aq)+I2(s) 3. 2AuCl3(aq)+3Sn(s)→3SnCl2(aq)+2Au(s)

Labor Relations- Chapter 5- G o v e r n m e n t s ,...

Labor Relations- Chapter 5- G o v e r n m e n t s , L a b o u r R e l a t i o n s B o a r d s , a n d O t h e r P a r t i e s Case Study- Quality Inn & Suites Brantford v. UFCW Local 175 In January 2012 the Ontario Labour Relations Board was asked to consider an application for the...